Interim Recovery Plan No. 338 · Interim Recovery Plan No. 338 5 Summary Name: Heath dominated by...
Transcript of Interim Recovery Plan No. 338 · Interim Recovery Plan No. 338 5 Summary Name: Heath dominated by...
Interim Recovery Plan No. 338
Heath dominated by one or more of Regelia
megacephala, Kunzea praestans and Allocasuarina
campestris on ridges and slopes of the chert hills
of the Coomberdale Floristic Region (update)
Interim Recovery Plan
2013 – 2018
Department of Parks and Wildlife, Kensington
July 2013
Interim Recovery Plan No. 338
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Interim Recovery Plan No. 338
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Forword
Interim Recovery Plans (IRPs) are developed within the framework laid down in Department of Parks and
Wildlife (DPAW) Policy Statements Nos 44 and 50.
IRPs outline the recovery actions that are required to urgently address those threatening processes most
affecting the ongoing survival of threatened taxa or ecological communities, and begin the recovery process.
DPAW is committed to ensuring that threatened ecological communities are conserved through the
preparation and implementation of Recovery Plans or Interim Recovery Plans and by ensuring that
conservation action commences as soon as possible and always within one year of endorsement of that rank
by DPAW‟s Director of Nature Conservation.
This Interim Recovery Plan will operate from July 2013 but will remain in force until withdrawn or replaced. It
is intended that, if the community is still listed as Endangered after five years, this Interim Recovery Plan will
be replaced or updated.
This IRP replaces IRP number 65 „Hamilton-Brown, S. (2000). Heath dominated by one or more of Regelia
megacephala, Kunzea praestans and Allocasuarina campestris on ridges and slopes of the chert hills of the
Coomberdale Floristic Region. 2000-2003. Department of Conservation and Land Management, Perth,
Western Australia‟
The IRP was approved by the Director of Nature Conservation on 9 September 2013. The provision of funds
identified in this Interim Recovery Plan is dependent on budgetary and other constraints affecting DPAW, as
well as the need to address other priorities.
Information in this IRP was accurate at July 2013.
Plan preparation
Monica Hunter Conservation Officer, DPAW Species and Communities Branch (SCB) Locked Bag 104
Bentley Delivery Centre, WA 6983.
Jill Pryde Ecologist, DPAW Species and Communities Branch (SCB) Locked Bag 104 Bentley
Delivery Centre, WA 6983.
Acknowledgements
The following people provided valuable advice and assistance in the preparation of this Interim Recovery
Plan:
Benson Todd Previously DPAW, Nature Conservation Coordinator, Moora District
Malcolm Trudgen Consultant botanist
Andrew Obal Previously Health, Safety and Environment Superintendent, Simcoa
Colin Headland Yued Aboriginal Elder
Colin, Robbie and Julian Gardiner Landholders
Roger Tonkin Landholder
Stuart Ridgway Landholder
Jeffrey Wheeler Land Manager
Interim Recovery Plan No. 338
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Valerie English Principal Ecologist, DPAW, Species and Communities Branch
Greg Keighery Senior Principal Research Scientist
Cover photographs: Main (Cairn Hill; view from the top of the ridge over the TEC) by Jill Pryde.
Inset (flowering Regelia megacephala) by Benson Todd.
Citation
This Interim Recovery Plan should be cited as:
Department of Parks and Wildlife (2013). Interim Recovery Plan 2013-2018 for Heath dominated by one or
more of Regelia megacephala, Kunzea praestans and Allocasuarina campestris on ridges and slopes of the
chert hills of the Coomberdale Floristic Region (update). Interim Recovery Plan No. 338. Department of Parks
and Wildlife, Perth.
Interim Recovery Plan No. 338
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Summary
Name: Heath dominated by one or more of Regelia megacephala, Kunzea praestans and Allocasuarina
campestris on ridges and slopes of the chert hills of the Coomberdale floristic region (herafter called the
Coomberdale Chert threatened ecological community (TEC); also known as the „Vegetation alliances on
ridges and slopes of the chert hills of the Coomberdale Floristic Region).
Description: Vegetation alliances of Allocasuarina campestris shrubland, Allocasuarina microstachya scrub,
Regelia megacephala shrubland, Kunzea praestans shrubland and scrub, Melaleuca calyptroides heath,
Hibbertia subvaginata shrubland and Xanthorrhoea drummondii shrubland on the ridges and slopes of the
chert hills of the Coomberdale Floristic Region.
DPAW Region: Midwest
DPAW District: Moora
IBRA Bioregion: Avon Wheatbelt
Local Government Authority: Moora
Current status: This community was assessed as Endangered by the Threatened Ecological Communities
Scientific Advisory Committee on 29 October 1999 and this rank was endorsed by the Minister for
Environment on 6 November 2001.
Habitat requirements: The Coomberdale Chert TEC is restricted to the exposed quartzite ridges of the
Noondine chert in the Coomberdale region from Jingemia to Moora.
Affected interests: Land owners and managers of all occurrences may be affected by actions in this plan, in
particular where the TEC occurs on lands not managed by DPAW or not intended to be transferred to DPAW
management.
Indigenous interests: There have been discussions with the local Yued indigenous group about the actions
included in this plan. The indigenous group noted that if recovery actions involved potentially damaging
ground disturbance, then consultation would be required with the South West Aboriginal Land and Sea
Council (SWALSC) and in particular, the Yued Working Party who have an active interest in the areas covered
by the Coomberdale Chert TEC. Table 2 identifies areas of the ecological community that contain sites that
are known to have particular aboriginal significance.
Social and economic impacts and benefits: The Coomberdale Chert TEC is mainly on private land subject
to a series of other land uses apart from conservation, including mining and grazing. Where specific activities
such as mining are prevented through the environmental impact assessment process, this will be a potential
impact on development and thus would be an economic impact, however, such controls also help to prevent
the continued degradation of the community and hence maintains other social benefits.
Related biodiversity impacts and benefits: Recovery actions implemented to improve the quality or
security of the community are likely to improve the status of any species within the community and other
associated vegetation types within managed areas of remnant vegetation. Five threatened flora (declared
rare flora – DRF), eight priority flora taxa and one threatened fauna species occur within remnant vegetation
that contains this community, or occur close by. The underlying Noondine Chert may also contain a rich
stygofauna. Recovery actions implemented to improve the status of the Coomberdale Chert TEC will benefit
these associated flora and fauna.
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Habitat critical to survival and important occurrences: The habitat critical to survival for the Coomberdale
Chert TEC is the chert hills on which the community occurs. Occurrences that contain vegetation alliances 13,
14, 15, 16, 17, 18 and 19 (as defined by Trudgen et al. 2006) are considered the „core‟ Coomberdale Chert TEC
and are considered critical to the survival of this ecological community.
Term of plan: The plan will operate from 2013 to 2018 but will remain in force until withdrawn or replaced. It
is intended that, if the ecological community is still ranked Endangered in Western Australia after five years,
the need for further recovery actions and the need for an updated recovery plan will be evaluated.
IRP Objective(s): To conserve the ecological and conservation values of the Coomberdale Chert TEC by:
Attaining conservation management of core vegetation alliances of the Coomberdale Chert TEC,
Ensuring the permanent protection and conservation of self sustaining representative samples of the
community across its range, and
Minimising the loss and maximising the conservation of all remaining community occurrences as far as
possible, including recovering degraded community occurrences where it is cost effective and practical
to do so.
Criteria for success:
An increase in the number of occurrences identified as „core areas‟ in this plan that are managed for
conservation and/or with conservation included in the purpose.
Representative areas of core vegetation alliances as identified in this plan with condition rank maintained,
or with improved condition rank (Bush Forever scales).
An increase in the number of occurrences of the community for which formal strategies are in place to
minimise loss and maximise conservation (such as fencing from stock or fire management strategies in
place and being implemented)
Criteria for failure:
No increase in the number of core areas managed for conservation.
Complete loss or decline to degraded condition or poorer, of any core vegetation alliance as identified in
this plan across its range.
Failure to develop and implement formal strategies to manage key threats such as weed invasion, or
inappropriate fire regimes.
Summary of recovery actions:
Coordinate recovery actions
Support private land managers to conserve the community
Clarify extent, and habitat critical to survival of the community
Seek to acquire occurrences to help protect the diversity of the community
Design and implement a monitoring program
Design and implement a weed control program
Implement a fire regime within an adaptive management framework
Develop and implement a fire management strategy
Implement replanting and rehabilitation where necessary
Determine the community‟s hydrological requirements
Obtain biological and ecological information
Seek to amend community name
Report on recovery plan implementation
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1 Background
1.1 History, defining characteristics of ecological
community, and conservation significance
The Noondine Chert is a geological formation visible as a discontinuous, narrow band of low hills or
outcroppings of the Moora group of Proterozoic rocks, up to 14km wide, to the east of the Perth Basin. The
formation stretches from Carnamah to Moora, a distance of approximately 150km. The largest most
extensive outcrop is between Coomberdale and Dalaroo (Appleyard 2002, Baxter and Lipple 1985, Carter and
Lipple 1982). The Noondine Chert was originally named the Coomberdale Chert by Logan and Chase (1961),
and Griffin (1992) referred to the area as the Coomberdale Floristic Region.
The vegetation that occurs on the Coomberdale Chert was originally defined by Griffin (1992, 1994) and
encompassed three closely related vegetation sub-types occurring on exposed chert ridges and gravelly
slopes of the chert hills. From a series of surveys, Griffin recognised the distinctiveness of these vegetation
types both within the Coomberdale Floristic Region and when compared to other floristic regions. Three
vegetation sub-types he identified included dense heath dominated by Regelia megacephala or Allocasuarina
campestris on the exposed chert ridges (sub-type 1); dense heath or open low woodland over dense to mid-
dense heath dominated by Kunzea praestans (sub-type 2) and Allocasuarina campestris on shallow loamy
rocky soil over chert on the slopes and ridges (sub-type 3). Other species common to all three sub-types
included Banksia fraseri var. fraseri, Banksia sessilis, Hibbertia subvaginata, Xanthorrhoea drummondii,
Calothamnus quadrifidus and Calytrix leschenaultii. This original description of the Coomberdale Chert TEC
was based on limited information and a more recent survey by Trudgen et al. (2006) noted that “many of the
heath stands are in fact high shrubland or high open scrub…” (Trudgen et al. 2006, p. 41).
Trudgen et al. (2006) surveyed plant communities occupying the outcropping areas of the Noondine Chert
(Coomberdale Chert) and differentiated and mapped 101 vegetation associations. These associations were
then grouped into 30 alliances that reflect soil depth and location on the slopes. The landscape varies from
low ranges to a catena of woodlands, shrublands and low heath. The occurrences within Watheroo National
Park, the water reserve and on private land west of The Midlands Road (refer Table 2) were not surveyed by
Trudgen et al. (2006).
Based on the work done by Trudgen et al. (2006), the Coomberdale Chert TEC was reviewed by the Western
Australian Threatened Ecological Community Scientific Committee (TECSC) which recommended that the
Coomberdale Chert TEC be renamed and the interim recovery plan be updated. It was recommended that
the vegetation alliances 13, 14, 15, 16, 17, 18 and 19 be considered the „core‟ parts of the Coomberdale Chert
TEC (Table 1), with some of the „buffer units‟ and „sub-types‟, as listed in Table 2, representing more
peripheral parts of the TEC but still associated with the catena of the vegetation defined as the TEC.
Table 1: Vegetation Alliances from Trudgen et al. (2006) that reflect the „core‟ Coomberdale Chert TEC
Vegetation
Alliance
Description Vegetation Associations
(see Appendix 4 for full descriptions)
13 Allocasuarina campestris high shrublands to
open and closed scrub
Ac, AcAa, AcAh, AcAhu, AcAs, AcB, AcCq,
AcDs, AcEe, AcEl, AcEw, AcHa, AcHs, AcId,
AcMr, AcMs, AcRm
14 Allocasuarina microstachya open scrub Am
15 Regelia megacephala high shrubland to open
and closed scrub
Rm, RmAh, RmB, RmDs, RmEe, RmHs,
RmKp, RmKpMc
16 Kunzea praestans high shrubland to open and
closed scrubscrub
KpAh, KpAhB, KpAhMc, KpAhDs, KpDs,
KpDsMc, KpEe, KpHs, KpXd
17 Melaleuca calyptroides open to closed heath Mc
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18 Hibbertia subvaginata low shrublands to low
open heath
Hs, HsAh, HsDs
19 Xanthorrhoea drummondii shrubland Xd
Vegetation Alliances 4, 9 and 11 appear to be lower in the catena compared to the „core‟ TEC but contain
elements of the TEC and species restricted to the Coomberdale Chert. These units are not considered to be
part of the TEC but act as a buffer to the TEC. These woodland and mallee communities occur on deeper soils
on the slopes of the Coomberdale Chert and are dominated by widespread species but still contain elements
of the TEC due to their position in the landscape.
.
Table 2: Vegetation Alliances from Trudgen et al. (2006) identified as “buffer units” and included in
the Coomberdale Chert TEC
Vegetation
Alliance
Description Vegetation Associations
(see Appendix 5 for full descriptions)
4 Eucalyptus eudesmoides mallee EeKp, EeId, EeRM
9 Allocasuarina huegeliana woodlands AhDs, AhDsKp, AhHr, AhHs, AhKp, AhRm,
AhTl, AhXd
11 Acacia acuminata low woodlands AaDs, AaDsKp, AaEl, AaHr, AaHs, AaKp,
AaMcor, AaMr, AaTl
Vegetation Alliances 1, 2, 3, 5, 6, 7, 8, 10, 12, 20 and 21 are excluded from the definition and extent of the
TEC. These units comprise forests, woodlands, shrublands and heath communities. The vegetation is
dominated by species that will mostly be found elsewhere (Trudgen et al. 2012).
The substrate on which the Coomberdale Chert TEC is located is highly restricted and confined to the
Noondine chert formation. Major threats to the TEC are mining, weed invasion, grazing, altered fire regimes,
clearing, and potentially drying climate and altered hydrology. Ten occurrences of this TEC were initially
recorded on the corporate TEC database, however following the survey undertaken by Trudgen et al. (2006),
a further 55 considerably smaller occurrences have been mapped and recorded. These additional
occurrences vary in condition (Trudgen 1988 condition scale) and size, and contribute an additional 120ha to
the total area of the TEC.
1.2 Description of Occurrences
All the known occurrences are located in the Shire of Moora along the Noondine chert hills that extend
discontinuously from Jingemia south to Moora and make up the Coomberdale Floristic Region. Table 2
below summarises the occurrence information.
There is a total of approximately 785 hectares of the community recorded on the DPAW‟s TEC database, in 65
occurrences.
Of the area of the community mapped on the TEC database at the time of writing this plan:
About 192 ha (~24%) occurs on land managed for conservation (National Park and Nature Reserve)
About 382.6 ha (~49%) occurs on private land covered by mineral tenements
About 183 ha (~23%) occurs on private freehold land not within mineral tenements
About 15.6 ha (~2%) occurs on a water reserve
About 11.8 ha (~1.5%) occurs on Unallocated Crown Lands (UCL) – currently under pastoral/grazing
lease
Table 2: Summary of occurrence information
Occurrence
Number
(Site
Identifiers)
Location Land vesting/ ownership,
management and purpose
Estd
area
(ha)
Major current
threats
Quadrat
Analysis/
Surveys
Indig-
enous
sites
Condition* Threatened and
priority flora
Core
vegetation
alliances, and
buffer types
Comments
1
(CH02, CH03,
CH04, CH05
and Chert1)
Cairn Hill and
immediate
surrounds,
Midlands Road,
Moora
Nature Reserve
(Conservation Commission)
for conservation of flora and
fauna
UCL (Department Regional
Development and Lands)
Private land (pastoral and
livestock)
Mining tenement (northern
section on private property)
142
4
95
(60ha
of the
private
land)
Total:
241ha
Grazing, mining,
fire and weed
invasion
Quadrats
and releves
(Trudgen et
al. 2006)
None
record
ed
good to very
good (northern)
Very good to
excellent (Cairn
Hill)
Acacia aristulata (DRF)
Acacia congesta subsp.
cliftoniana (P1)
Baeckea sp. Moora (P3)
Daviesia dielsii (DRF)
Goodenia arthrotricha
(DRF)
Regelia megacephala
(P4)
Stylidium sp. Moora
(P2)
Synaphea quartzitica
(DRF)
Core: 13, 15,
16, 17
Buffer: 4, 9, 11
Fenced
2
(Chert2b and
Chert2c)
South of Cairn
Hill and East of
Midlands Road,
Moora
Private land (pastoral and
livestock)
11.6 Grazing, fire and
weed invasion
Releve
(Trudgen et
al. 2006)
None
record
ed
Poor to very
poor
Acacia aristulata (DRF)
Regelia megacephala
(P4)
Core: 13, 15
Buffer: 4
3
(CH06 and
Chert3)
East of The
Midlands Road
and north of
Dalaroo East
Road, Moora
Private land (pastoral and
livestock)
56.8 Grazing, fire and
weed invasion
Quadrats
and releves
(Trudgen et
al. 2006)
None
record
ed
Mostly very
good to
excellent
Acacia aristulata (DRF)
Daviesia dielsii (DRF)
Goodenia arthrotricha
(DRF)
Melaleuca sclerophylla
(P3)
Regelia megacephala
(P4)
Core: 13, 14,
15, 16
Buffer: 9, 11
Fenced
4
(Chert4)
South of Kiaka
Road and east of
The Midlands
Road, Moora
Private land (mining
tenement)
92 Mining, grazing,
fire and weed
invasion
Quadrats
and releves
(Trudgen et
al. 2006)
Kiaka
Brook
artefac
ts/scat
ter
good to
excellent
Acacia aristulata (DRF)
Daviesia dielsii (DRF)
Regelia megacephala
(P4)
Core: 13, 15,
16, 18
Buffer: 9, 11
Currently
being mined
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Kiaka
Road
Scarre
d Tree
5
(Chert5a and
Chert5b)
North of Kiaka
Road and east of
The Midlands
Road, Moora
Private land (mining
tenements, pastoral and
livestock)
45.89 Mining, grazing,
fire and weed
invasion
Quadrats
and releves
(Trudgen et
al. 2006)
None
record
ed
Ranging from
degraded to
excellent
Acacia aristulata (DRF)
Daviesia dielsii (DRF)
Regelia megacephala
(P4)
Core: 13, 15,
16, 17
Buffer: 9, 11
Central west
section of
occurrence in
good to
excellent
condition, 3
Threatened/Pri
ority taxa -
recommended
to be
conserved and
fenced.
6
(Chert6)
Atbara St, Moora Water Corporation (water
supply)
Road reserve
12
1
Total:
13ha
Weed invasion,
fire and
trampling
Griffin (1992,
1994)
Gingin
Brook
Wagg
yl Site
Highly
disturbed. Some
pockets of good
condition
None recorded Sub-type 3
(Allocasuarina
campestris on
shallow loamy
rocky soil over
chert on the
slopes and
ridges)
7
(Chert7)
Watheroo
National Park,
Boothendarra
National Park (Conservation
Commission)
Small portion on road
reserve
Small portion on private land
46.6
3
1
Total:
50.6ha
Fire and weed
invasion.
Griffin (1992,
1994)
Jinge
mia
Hill
Mostly good to
very good.
Calothamnus accedens
(P4)
Acacia aristulata (DRF)
Sub-type 3
8
(Chert8)
West of The
Midlands Road,
approximately
2km south west
of Cairn Hill
Private land (pastoral and
livestock)
9.8 Grazing, fire and
weed invasion
Griffin (1992,
1994)
None
record
ed
Unknown None recorded Sub-type 3 Recommende
d that this
occurrence be
remapped on
ground.
9
(Chert9)
North of Kiaka
Road and east of
The Midlands
Private land (mining
tenement)
12.5 Grazing, fire and
weed invasion
Releves
(Trudgen et
al. 2006)
None
record
ed
Mostly poor to
good, some
degraded
Acacia aristulata (DRF) Core: 13
Buffer: 9, 11
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Road
10
(Chert2a)
South of Cairn
Hill and East of
The Midlands
Road, Moora
Private land 5.3 Grazing, fire and
weed invasion
Releves
(Trudgen et
al. 2006)
None
record
ed
Degraded Regelia megacephala
(P4) nearby
Core: 13
11
(Chert11)
South of Kiaka
Road and East of
The Midlands
Road, Moora
Private land 4.8 Grazing, fire and
weed invasion
Releves
(Trudgen et
al. 2006)
None
record
ed
Poor to good None recorded Core: 13, 18
Buffer: 9, 11
Contains 1 of
3 occurrences
of core veg
alliance 18
12
(Chert12)
South of Kiaka
Road and East of
The Midlands
Road, Moora
Private land 1.6 Grazing, fire and
weed invasion
Releves
(Trudgen et
al. 2006)
None
record
ed
Very poor to good
None recorded Core: 13
13
(Chert 13)
South of Kiaka Road and East of The Midlands Road, Moora
Private land 1.47 Grazing, fire and weed invasion
Releves (Trudgen et al. 2006)
None recorded
Good None recorded Core: 13
14
(Chert14)
South of Kiaka Road and East of The Midlands Road, Moora
Private land 0.69 Grazing, fire and weed invasion
Releves (Trudgen et al. 2006)
None recorded
Good None recorded Core: 13
15
(Chert15)
South of Kiaka Road and East of The Midlands Road, Moora
Private land 2.90 Grazing, fire and weed invasion
Releves (Trudgen et al. 2006)
None recorded
Good to very good
None recorded Core: 13 Buffer: 11
16
(Chert16)
South of Kiaka Road and East of The Midlands Road, Moora
Private land 13.71 Grazing, fire and weed invasion
Releves (Trudgen et al. 2006)
None recorded
Poor to very good
None recorded Core: 13, 16 Buffer: 9, 11
17
(Chert17)
South of Kiaka Road and East of The Midlands Road, Moora
Private land 4.09 Grazing, fire and weed invasion
Releves (Trudgen et al. 2006)
None recorded
Good to very good
None recorded Core: 13, 15
18
(Chert18)
South of Kiaka Road and East of The Midlands Road, Moora
Private land 2.66 Grazing, fire and weed invasion
Releves (Trudgen et al. 2006)
None recorded
Poor to good None recorded Core: 16, 18, 19 Buffer: 9
Only occurrence containing core veg alliance 19
19
(Chert19)
South of Kiaka Road and East of The Midlands Road, Moora
Private land 11.88 Grazing, fire and weed invasion
Releves (Trudgen et al. 2006)
None recorded
Very poor to good
None recorded Core: 13, 16 Buffer: 9, 11
Fenced on northern property
20
(Chert20)
South of Kiaka Road and East of The Midlands
Private land 5.43 Grazing, fire and weed invasion
Releves (Trudgen et al. 2006)
None recorded
Poor to very good
None recorded Core: 13, 16 Buffer: 9
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Road, Moora
21
(Chert21)
South of Kiaka Road and East of The Midlands Road, Moora
Private land 8.89 Grazing, fire and weed invasion
Releves (Trudgen et al. 2006)
None recorded
Very poor to very good
None recorded Core: 13, 16, 18 Buffer: 9
22
(Chert22)
East of The Midlands Road and east of Cairn Hill Nature Reserve
UCL (Department Regional Development and Lands), pastoral/grazing lease
1.5 Grazing, fire and weed invasion
Releves (Trudgen et al. 2006)
None recorded
Very poor to poor, some good
None recorded Core: 13, 16 Buffer: 1
23
(Chert23)
East of The
Midlands Road
and east of Cairn
Hill Nature
Reserve
UCL (Department Regional
Development and Lands),
pastoral/grazing lease
6.0 Grazing, fire and
weed invasion
Releves
(Trudgen et
al. 2006)
None
record
ed
Poor to very
good
None recorded Core: 16, 18
Buffer: 9
24
(Chert24)
South of Kiaka
Road and East of
The Midlands
Road, Moora
Private land 4.9 Grazing, fire and
weed invasion
Releves
(Trudgen et
al. 2006)
None
record
ed
Poor to very
good
None recorded Core: 16, 18
Buffer: 9
25
(Chert25)
South of Kiaka Road and East of The Midlands Road, Moora
Private land 3.7 Grazing, fire and weed invasion
Releves (Trudgen et al. 2006)
None recorded
Poor to good None recorded Core: 13
26
(Chert6)
East of The
Midlands Road
Private land 1.7688 Grazing, fire and
weed invasion
Releves and
quadrats
(Trudgen et
al. 2006)
None
record
ed
Very poor to
poor
None recorded Core: 13
27
(Chert27)
East of The
Midlands Road
Private land 0.3048 Grazing, fire and
weed invasion
Releves and
quadrats
(Trudgen et
al. 2006)
None
record
ed
Good to very
good
None recorded Core: 13
28
(Chert28)
East of The
Midlands Road
Private land 13.35 Grazing, fire and
weed invasion
Releves and
quadrats
(Trudgen et
al. 2006)
None
record
ed
Range from
poor to very
good
None recorded Core: 13, 16
29
(Chert29,
Chert30 and
Chert31)
East of The
Midlands Road
Private land 1.4856 Grazing, fire and
weed invasion
Releves and
quadrats
(Trudgen et
al. 2006)
None
record
ed
Range from
poor to very
good
None recorded Core: 13, 18
30
(Chert32)
East of The
Midlands Road
Private land 0.1162 Grazing, fire and
weed invasion
Releves and
quadrats
(Trudgen et
None
record
ed
Poor to good None recorded Core: 13
Interim Recovery Plan No. 338
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al. 2006)
31
(Chert33 –
Chert39)
East of The
Midlands Road
Private land 5.6921 Grazing, fire and
weed invasion
Releves and
quadrats
(Trudgen et
al. 2006)
None
record
ed
Range from
poor to very
good
None recorded Core: 13, 16
and 18
Buffer: 9
32
(Chert40)
East of The
Midlands Road
Private land 1.47 Grazing, fire and
weed invasion
Releves and
quadrats
(Trudgen et
al. 2006)
None
record
ed
Poor to good None recorded Core: 16
33
(Chert41)
East of The
Midlands Road
Private land 0.4274 Grazing, fire and
weed invasion
Releves and
quadrats
(Trudgen et
al. 2006)
None
record
ed
Poor to good None recorded Core: 13
34
(Chert42)
East of The
Midlands Road
Private land 0.6383 Grazing, fire and
weed invasion
Releves and
quadrats
(Trudgen et
al. 2006)
None
record
ed
Poor to good None recorded Core: 13
35
(Chert43 and
Chert44)
East of The
Midlands Road
Private land 1.3745 Grazing, fire and
weed invasion
Releves and
quadrats
(Trudgen et
al. 2006)
None
record
ed
Good None recorded Core: 13
36
(Chert45)
East of The
Midlands Road
Private land 1.2104 Grazing, fire and
weed invasion
Releves and
quadrats
(Trudgen et
al. 2006)
None
record
ed
Poor to good None recorded Core: 16
Buffer: 9
37
(Chert46)
East of The
Midlands Road
Private land 0.2442 Grazing, fire and
weed invasion
Releves and
quadrats
(Trudgen et
al. 2006)
None
record
ed
Poor to good None recorded Core: 16
38
(Chert47)
East of The
Midlands Road
Private land 0.3244 Grazing, fire and
weed invasion
Releves and
quadrats
(Trudgen et
al. 2006)
None
record
ed
Poor to good None recorded Core: 13
39
(Chert48)
East of The
Midlands Road
Private land 1.98 Grazing, fire and
weed invasion
Releves and
quadrats
(Trudgen et
al. 2006)
None
record
ed
Very poor to
poor
None recorded Core: 13
Buffer: 11
40
(Chert49)
East of The
Midlands Road
Private land 1.96 Grazing, fire and
weed invasion
Releves and
quadrats
(Trudgen et
al. 2006)
None
record
ed
Very poor to
poor
None recorded Core: 15
Buffer: 9
Interim Recovery Plan No. 338
6
41
(Chert50)
East of The
Midlands Road
Private land 1.1525 Grazing, fire and
weed invasion
Releves and
quadrats
(Trudgen et
al. 2006)
None
record
ed
Very poor None recorded Core: 15
42
(Chert51)
East of The
Midlands Road
Private land 2.47 Grazing, fire and
weed invasion
Releves and
quadrats
(Trudgen et
al. 2006)
None
record
ed
Very poor None recorded Core: 15
Buffer: 9
43
(Chert52)
East of The
Midlands Road
Private land 0.43 Grazing, fire and
weed invasion
Releves and
quadrats
(Trudgen et
al. 2006)
None
record
ed
Degraded to
very poor
None recorded Core: 13
44
(Chert53)
East of The
Midlands Road
Private land 0.2784 Grazing, fire and
weed invasion
Releves and
quadrats
(Trudgen et
al. 2006)
None
record
ed
Very poor to
poor
None recorded Core: 15
Buffer: 4
45
(Chert54)
East of The
Midlands Road
Private land 1.7669 Grazing, fire and
weed invasion
Releves and
quadrats
(Trudgen et
al. 2006)
None
record
ed
Good None recorded Core: 13
46
(Chert55)
East of The
Midlands Road
Private land 0.3563 Grazing, fire and
weed invasion
Releves and
quadrats
(Trudgen et
al. 2006)
None
record
ed
Very poor to
poor
None recorded Core: 13
47
(Chert56)
East of The
Midlands Road
Private land 0.09 Grazing, fire and
weed invasion
Releves and
quadrats
(Trudgen et
al. 2006)
None
record
ed
Good None recorded Core: 13
48
(Chert57)
East of The
Midlands Road
Private land 1.43 Grazing, fire and
weed invasion
Releves and
quadrats
(Trudgen et
al. 2006)
None
record
ed
Good to very
good
None recorded Core: 13
49
(Chert58)
East of The
Midlands Road
Private land 0.397 Grazing, fire and
weed invasion
Releves and
quadrats
(Trudgen et
al. 2006)
None
record
ed
Good to very
good
None recorded Core: 13
50
(Chert59 –
Chert64)
East of The
Midlands Road
Private land 3.876 Grazing, fire and
weed invasion
Releves and
quadrats
(Trudgen et
al. 2006)
None
record
ed
Degraded to
very good
None recorded Core: 13, 15
and 16
51
East of The
Midlands Road,
Private land 45.289 Grazing, fire,
weed invasion
Releves and
quadrats
None
record
Degraded to
poor
Acacia aristulata (DRF)
and Daviesia dielsii
Core: 13 and 16
Interim Recovery Plan No. 338
7
(NorthKiaka01) North of Kiaka
Road
and proposed
mining.
(Trudgen et
al. 2006)
ed (DRF) Buffer: 9 and 11
52
(NorthKiaka02)
East of The
Midlands Road,
North of Kiaka
Road
Private land 3.21 Grazing, fire,
weed invasion,
proposed
mining.
Releves
(Trudgen et
al. 2006)
None
record
ed
Good to poor None recorded Core: 13
53
(NorthKiaka03)
East of The
Midlands Road,
North of Kiaka
Road
Private land 11.35 Grazing, fire,
weed invasion,
proposed
mining.
Releves
(Trudgen et
al. 2006)
None
record
ed
Degraded to
very poor
Acacia aristulata (DRF) Core: 13 and 16
Buffer: 9 and 11
54
(NorthKiaka04)
East of The
Midlands Road,
North of Kiaka
Road
Private land 5.6 Grazing, fire,
weed invasion,
proposed
mining.
Releves
(Trudgen et
al. 2006)
None
record
ed
Degraded to
very poor
None recorded Core: 13
Buffer: 9 and 11
55
(NorthKiaka05)
East of The
Midlands Road,
North of Kiaka
Road
Private land 11.69 Grazing, fire,
weed invasion,
proposed
mining.
Releves
(Trudgen et
al. 2006)
None
record
ed
Good to
degraded
Regelia megacephala
(P4)
Core: 13 and 16
Buffer: 9 and 11
56
(NorthKiaka06)
East of The
Midlands Road,
North of Kiaka
Road
Private land 11.39 Grazing, fire,
weed invasion,
proposed
mining.
Releves and
quadrats
(Trudgen et
al. 2006)
None
record
ed
Good to very
good with very
small area in
poor condition
Acacia aristulata (DRF)
Daviesia dielsii (DRF)
Regelia megacephala
(P4)
Core: 13, 15
and 16
57
(NorthKiaka07)
East of The
Midlands Road,
North of Kiaka
Road
Private land 1.76 Grazing, fire,
weed invasion,
proposed
mining.
Releves
(Trudgen et
al. 2006)
None
record
ed
Poor None recorded
Core: 13
58
(NorthKiaka08)
East of The
Midlands Road,
North of Kiaka
Road
Private land 0.55 Grazing, fire,
weed invasion,
proposed
mining.
Releves
(Trudgen et
al. 2006)
None
record
ed
Poor None recorded
Core: 13 and
16
59
(NorthKiaka09)
East of The
Midlands Road,
North of Kiaka
Road
Private land 6.187 Grazing, fire,
weed invasion,
proposed
mining.
Releves
(Trudgen et
al. 2006)
None
record
ed
Very poor to
very good
Acacia aristulata (DRF)
Daviesia dielsii (DRF)
Regelia megacephala
(P4)
Core: 13, 15
and 16
60
(NorthKiaka10)
East of The
Midlands Road,
North of Kiaka
Road
Private land 3.47 Grazing, fire,
weed invasion,
proposed
mining.
Releves
(Trudgen et
al. 2006)
None
record
ed
Poor to good Acacia aristulata (DRF)
Core: 13 and
16
61
East of The
Midlands Road,
Private land 2.64 Grazing, fire,
weed invasion,
Releves and
quadrats
None
record
Poor to good None recorded Core: 13 and
16
Interim Recovery Plan No. 338
8
(NorthKiaka11) North of Kiaka
Road
proposed
mining.
(Trudgen et
al. 2006)
ed
62
(NorthKiaka12)
East of The
Midlands Road,
North of Kiaka
Road
Private land 0.72 Grazing, fire,
weed invasion,
proposed
mining.
Releves
(Trudgen et
al. 2006)
None
record
ed
Very poor to
good
None recorded Core: 13 and
16
63
(NorthKiaka13)
East of The
Midlands Road,
North of Kiaka
Road
Private land 1.78 Grazing, fire,
weed invasion,
proposed
mining.
Releves
(Trudgen et
al. 2006)
None
record
ed
Good to very
poor
None recorded Core: 13 and
16
64
(NorthKiaka14)
East of The
Midlands Road,
North of Kiaka
Road
Private land 3.82 Grazing, fire,
weed invasion,
proposed
mining.
Unmapped
by Trudgen
et al. 2006
None
record
ed
Unmapped by
Trudgen et al.
2006
None recorded Unmapped by
Trudgen et al.
2006
65
(North Kiaka
15)
East of The
Midlands Road,
North of Kiaka
Road
Private land 13.66 Grazing, fire,
weed invasion,
proposed
mining.
Quadrat and
releves
(Trudgen et
al. 2006)
None
record
ed
Poor to very
poor
None recorded Core: 13
Buffer: 9
* Condition scale as per Trudgen (1988). Equivalent condition in Bush Forever (BF) as follows: Excellent (Trudgen 1988) = Pristine (BF); very good = excellent (BF); good = very good (BF); poor =
good (BF); very poor = degraded (BF)
Additional information about some occurrences occurs below:
Occurrence 1 extends across an unnamed nature reserve (referred to as „Cairn Hill‟), and private
property in the northern section. There are small areas of the TEC on the adjoining unallocated Crown
land, rail reserve and road reserves. The northern section is fenced off from the surrounding agricultural
paddocks. This northern section of the TEC has been subject to significant grazing pressure, has
diminished cover of native herbs and is infested with weeds. Some areas have been impacted by grid
lines, which have been bulldozed to facilitate access for drilling for the chert mine (Trudgen et al. 2006).
Despite these disturbances, Trudgen et al. (2006) rated the condition in this portion of the TEC as good
to very good, with some areas in excellent condition.
The central portion of occurrence 1 (142 ha, known as „Cairn Hill‟) is now a nature reserve but was
previously managed by Westrail. Cairn Hill is considered to contain the most outstanding example of
the Coomberdale Chert TEC. It contains a number of threatened and priority flora including Synaphea
quartzitica. Two radio and television towers are located on the highest parts of the hills, and the reserve
is accessed by a number of stakeholders. The reserve contains the most intact portion of the TEC in the
best condition (excellent to very good) and is dominated by Allocasuarina campestris, Regelia
megacephala and Kunzea praestans. In the past, the low land on the eastern and southern portion was
under a grazing lease (Hamilton-Brown 2000) and the Moora Shire and other contractors extracted
gravel from the area. The removal of excess gravel piles and dumped soil was undertaken in 2004 and
2005 and the gravel pits are no longer in use. As the reserve is not fenced, there is the potential for
illegal extraction of gravel. There is easy access to the nature reserve from the Midlands Road and
although there is a sign advising of the TEC and requesting that rubbish not be dumped, there is
evidence of rubbish dumping and camp fires.
Occurrence 2 is located approximately 0.7km south of occurrence 1. It is entirely surrounded by
paddocks, is not fenced and is heavily grazed.
Occurrence 3 is located on private land approximately 7 km north-east of Moora. Although this
occurrence is fenced there are apparently signs of grazing according to Trudgen et al. (2006).
Occurrence 4 is located on private land approximately 0.25 km north of occurrence 1 and is currently
being mined for chert. Exploration tracks and gridlines cleared for drilling traverse the remaining
vegetation and Trudgen et al. (2006) rated the condition as varying from poor to excellent. The areas in
better condition were generally situated on rocky slopes, which were likely to be protected from
grazing, and/or were further from margins and less affected by weed invasion. Parts of the occurrence
are still subject to grazing (Trudgen et al. 2006).
Occurrence 5 covers 3 private properties 0.5 km north of occurrence 4 and north of Kiaka Road. The
vegetation varies from heavily grazed with very little herb/grass layer, except for weeds, to areas in very
good condition. Trudgen et al. (2006, pp 103-104) states “Vegetation condition was generally better in
the vegetation types on rockier sites, steeper sites and where the Regelia megacephala or Allocasuarina
campestris was denser”. The occurrence is slightly fragmented in the northern parts, with cropping and
grazing lands between hills and on the lower slopes. Twenty one hectares of the occurrence has been
fenced for conservation and covenanted under the Soil and Land Conservation Act 1945 (through the
Remnant Vegetation Protection Scheme). In 1981 a fire swept through the south eastern side of the
occurrence affecting the fenced portion and the hill dominated by Acacia acuminata.
Occurrence 6 is located in a water reserve in the eastern part of the town of Moora. The reserve is
managed by the Water Corporation and is completely surrounded by agricultural land. The area has
been disturbed by clearing for gravel extraction, access tracks, weed infestation and trampling by
recreational users. Griffin (1994) described vegetation sub-type 3 (Allocasuarina campestris on shallow
loamy rocky soil over chert on the slopes and ridges) as occurring in the reserve. Regelia megacephala
was historically thought to occur on the reserve however has not been recorded recently.
Interim Recovery Plan No. 338
2
Occurrence 7 is located in Watheroo National Park, around Jingemia Cave. This occurrence has been
described as vegetation sub-type 3 as per Griffin (1994) and was not surveyed by Trudgen et al. (2006).
The vegetation surrounding the TEC includes extensive, intact Eucalyptus loxophleba and mallee
woodlands. Small portions of this occurrence are located on private land and may be subject to grazing
by livestock (Hamilton-Brown 2000).
Occurrence 8 is located on private land 2 km west of occurrence 4. The TEC comprises 9.8 ha of the 46
ha of remnant vegetation and the remainder is Eucalyptus loxophleba, E. salmonophloia and E. wandoo
woodland (Hamilton-Brown 2000). Griffin‟s vegetation subtype 3 is recorded for the occurrence
(Hamilton-Brown 2000), however, there has been no recent survey of the occurrence and current
condition is unknown.
Occurrence 9 is located 0.5km north of Kiaka Rd. This occurrence is fenced off from the surrounding
agricultural paddocks and Trudgen et al. (2006) rated its condition as good to degraded.
Occurrence 10 is located approximately 0.7km south of Cairn Hill Nature Reserve It is mapped as being
in very poor to poor condition, possibly due to access by livestock.
Occurrence 12 is entirely vegetation alliance 13. The north eastern section of the occurrence is in poor
condition and the south west section is in good condition as per Trudgen et al. (2006). There is a
degraded area in the northern and central sections of the occurrence.
Occurrence 13 is entirely core vegetation alliance 13. The North West section of the occurrence is
separated by a small section of paddock and is in poor to good condition.
Occurrence 14 is entirely core vegetation alliance 13. The occurrence is situated at the northern tip of
remnant vegetation within this TEC.
Occurrence 19 occurs over two properties. The section of this occurrence on the northern property was
fenced recently and the occurrence was burnt in a wildfire in 2009.
Occurrence 20 occurs on both UCL and private property. The condition of the occurrence ranges from
very good in the southern portion to poor and degraded in the central and northern portions as per
Trudgen et al. (2006). The UCL is currently under a pastoral lease.
Occurrence 21 occurs over two properties.
Occurrence 23 is mostly in very good condition with a small portion in poor condition as per Trudgen
et al. (2006).
Occurrences 26-50 are small disjunct occurrences, varying in condition from degraded to very good as
per Trudgen et al. (2006).
Occurrences 51-65 occur north of Kiaka Road over 8 properties. The vegetation conditions range from
completely degraded to very good (occurrence 64 has not been mapped on ground). The occurrences
are separated by cropping and grazing lands between hills and on the lower slopes. Areas of the
vegetation vary from heavily grazed with very little herb/grass layer, except for weeds, to areas in very
good condition with little grazing evidence. Some areas in good or better condition have lower species
richness however this could be related to the 2010 drought (Trudgen et al. 2006, pp110-111).
Interim Recovery Plan No. 338
3
1.3. Habitat, biological and ecological characteristics
This Coomberdale Chert TEC is restricted to the Coomberdale (or Noondine) chert formation which
extends from Jingemia to Moora (Carter and Lipple 1982). “The largest and most extensive area of
outcrops of this chert, and hence the largest representation of the vegetation … occurs between
Dalaroo and Coomberdale…” (Trudgen et al 2006, p. 40). The particular floristic composition of the
heath community is assumed to relate to the soil/substrate types and depths. For example, “...Regelia
megacephala stands are present only over massive chert...it is a highly habitat specific species and that
habitat is not replicated on the waste dumps...” (Trudgen and Adam 2011, p. 29). The geological chert
material that supports this very distinctive and restricted assemblage of plants is also Western
Australia‟s best supply of high quality quartz which is mined predominantly for the production of silicon
(Environmental Protection Authority 2001).
The soils on the chert ridges vary in depth from skeletal on the chunky outcropping chert, to gravelly,
loamy sands lower down the slopes (Griffin 1992). The surface soil is commonly pale grey, silty, fine
sand. The topography of the TEC habitat ranges from gentle to steep slopes, fault-lines and ridges
(Trudgen et al. 2006). As the surveys of the area indicate the chert hills on which the TEC occurs is
habitat critical to survival of the community.
Plant taxa that make up the core vegetation alliances of this TEC are listed in Appendix 4.
Little is known about the biological and ecological characteristics of the community, and gaining more
information is included in the recommended actions in this plan.
1.4 Related biodiversity impacts and benefits
Recovery actions implemented to improve the quality or security of the Coomberdale Chert TEC will
also improve the status of associated native vegetation, as well as five threatened and eight priority
flora species that are either totally or largely confined to these chert hills. There are also records of the
threatened Carnaby‟s cockatoo (Calyptorhynchus latirostris) in and around the TEC. The Noondine Chert
may also contain a rich stygofauna (Appleyard 2002). Recovery actions implemented to improve the
status of the Coomberdale Chert TEC will benefit these associated flora and fauna.
Interim Recovery Plan No. 338
4
Table 3: Threatened and priority flora that occur in the TEC
Species name Conservation status (WA) Conservation status
(EPBC Act 1999)
Acacia aristulata DRF (EN) EN
Baeckea sp. Moora P3 -
Calothamnus accedens P4 -
Cryptandra glabriflora P2 -
Daviesia dielsii DRF (EN) EN
Eucalyptus pruiniramis DRF (EN) EN
Goodenia arthrotricha DRF (EN) -
Guichenotia tuberculata P3 -
Melaleuca sclerophylla P3 -
Regelia megacephala P4 -
Stylidium glabrifolium P2 -
Synaphea quartzitica DRF (EN) EN
Tricoryne sp. Wongan Hills P2 -
For a description of priority categories see Smith (2010).
Habitat critical to survival and important occurrences
The habitat critical to survival for the Coomberdale Chert TEC is the chert hills on which the community
occurs. Occurrences that contain vegetation alliances 13, 14, 15, 16, 17, 18 and 19 (as defined by
Trudgen 2006) are considered the “core” Coomberdale Chert TEC and are considered critical to the
survival of this ecological community.
1.5 International Obligations
This plan is fully consistent with the aims and recommendations of the Convention on Biological
Diversity, ratified by Australia in June 1993, and will assist in implementing Australia‟s responsibilities
under that Convention. However, as this community is not listed under any specific international
agreement, the implementation of other international environmental responsibilities is not affected by
this plan.
1.6 Indigenous interests
There have been discussions with the Yued local indigenous group about the actions included in this
plan. As illustrated in Table 2, there are four areas of Aboriginal significance within or near occurrences
of the Coomberdale Chert TEC. The indigenous group noted that if recovery actions involved potentially
damaging ground disturbance, then further consultation would be required with the South West
Aboriginal Land and Sea Council and in particular, the Yued Working Party who have an active interest
in the areas covered by the Coomberdale Chert TEC (1C. Headland personal communication).
1 Colin Headland, Yued Working Party, Moora.
Interim Recovery Plan No. 338
5
1.7 Social and economic impacts and benefits
The implementation of this recovery plan has the potential to have some social and economic impact as
most occurrences are located on private property and many are on land not specifically managed for
conservation. The habitat of the Coomberdale Chert TEC may be regarded by landholders and
stakeholders as having potential for uses other than conservation. These uses include chert mining,
gravel extraction, shelter and fodder for stock, firewood and fence posts. Where specific activities such
as mining are prevented, for example, through the process of environmental impact assessment, this
will be a potential impact on development and thus would be an economic impact if alternative options
are not available. Such controls also help to prevent the continued degradation of the community,
however, and hence maintain other social benefits. Where specific active recreational pursuits such as
four wheel driving are prevented through access control, this may be a social impact, however such
access control also helps to prevent the continued degradation of the community and maintain other
social benefits.
1.8 Affected interests
Occurrences of the Coomberdale Chert TEC are found within the local government authority of the
Shire of Moora. Other land managers include DPAW, Westnet Rail, Water Corporation, Main Roads WA
and private mining and agricultural businesses. These land managers may be affected through the
restriction on land management activities associated with areas of the TEC.
1.9 Term of plan
The plan will operate from 2013 to 2018 but will remain in force until withdrawn or replaced. It is
intended that, if the ecological community is still ranked endangered in Western Australia after five
years, the need for further recovery actions and the need for an updated recovery plan will be assessed.
1.10 Strategy for recovery
To identify, and influence the management of, the areas in which the community occurs, so maintaining
natural biological and non biological attributes of the sites and the current area covered by the
community.
To conduct appropriate investigations into the ecological characteristics and management requirements
of the community to develop further understanding about the actions required to maintain or improve
its condition.
2. Threatening processes
All occurrences are surrounded by cleared agricultural land, many with very little or no native vegetation
buffer. The major threatening processes relevant to individual occurrences are indicated in Table 2 and
are discussed in greater detail below.
Interim Recovery Plan No. 338
6
Clearing
Clearing for agriculture in the Shire of Moora has been extensive with less than 12% of the original
Coomberdale vegetation remaining (DPAW Comprehensive Adequate Representative (CAR) Reserve
Analysis 2007). Trudgen et al. (2006) notes that “the Noondine Chert has suffered significant clearing,
apparently greater than 60% in the Marchagee to Moora area, with the [vegetation] types on the lower
slopes (mostly dominated by Allocasuarina campestris) being preferentially cleared”. Historical clearing
was for activities including gravel extraction, tracks and roads, trees for fence posts, grazing paddocks in
the less rocky areas, and small scale mining. Current and future clearing is likely to be associated with
chert mining, and mining tenements currently exist over occurrences 4, 5 and 9.
Some of the substrate on which the Coomberdale Chert TEC occurs is currently being mined as it is the
best, most suitable quality chert resource in Western Australia (EPA 2001). At present, occurrence 4 is
being mined with long-term plans for mining other occurrences currently in negotiation. There are
mineral tenements over occurrences 5 and 9. Mining proposals are subject to assessment by the
Environmental Protection Authority in accordance with the Environmental Protection Act 1986.
Mining for chert requires the complete removal of plants (EPA 2001) therefore there is a total loss of the
vegetation, which apparently cannot then be regenerated on the sites mined or on waste dumps
because of the change to the soil profile (Trudgen et al. 2011). The Environmental Protection Authority
(2001) noted “Rehabilitation trials thus far have shown that Regelia can be successfully regenerated but
individual plants are unlikely to survive in the long term in the modified environment after mining,
although the seed can be sustained” (EPA, p. 1).
On the occasions where Regelia megacephala has been successfully regenerated in waste rock material,
after a number of years R. megacephala has been out-competed by Allocasuarina species. This is
because Regelia megacephala is specifically adapted to growing in the very fine joints of the unmined
chert rock and can send its roots for a long distance into very fine spaces. When grown on waste rock,
other plants that are not able to grow on the undisturbed rock, can grow more rapidly and out compete
the Regelia megacephala. It is believed however, that the regeneration of Regelia megacephala is still
valuable as it generates an ongoing source of seed and maximises maintenance of genetic diversity
within Regelia populations (Robinson 2001).
It is not possible to replace the substrate on which the Coomberdale Chert TEC relies, post-mining,
therefore it is important to seek long term conservation of important occurrences. Conservation
initiatives should focus on protecting areas from disturbance and adding areas to the conservation
reserve system. The recovery actions detailed in this plan will guide such initiatives. The mining
company currently mining the chert has continued to rehabilitate waste dumps but has experienced a
number of difficulties doing so. Details of the rehabilitation program, including difficulties experienced
and recommendations, are elaborated in Trudgen and Adam (2011). Regeneration techniques such as
returning the topsoil and controlling weeds may be useful in reducing native species loss and provide
linkages and buffers for remaining Coomberdale Chert TEC occurrences.
The mining company currently operating in the area has carried out additional reconnaissance
exploration to identify other parts of the Coomberdale Chert, both within and outside current lease
areas, which may contain sufficiently high grade quartz in areas where the Coomberdale Chert TEC is
already absent or is completely degraded. Three of the currently mapped occurrences (6, 7 and 8) were
not surveyed by M. Trudgen, and other areas outside of the immediate TEC area which appear to be a
continuation of the Noondine Chert Formation according to geological maps were also not surveyed.
Interim Recovery Plan No. 338
7
Other impacts associated with mining include the clearing of grid lines for exploration and vehicle
movements which can spread weed seeds or crush and compact vegetation and soil (Trudgen et al.
2006).
Hydrological change
There is potential for the dewatering in order to mine below the watertable if additional chert resources
are not located. The potential for hydrological change due to dewatering to affect the TEC is not known
and requires investigation. The Noondine Chert may contain aquifers with a particularly rich
subterranean fauna, and this requires assessment (Appleyard 2002).
Grazing
The grazing of plant communities such as the Coomberdale Chert TEC can cause alterations to species
composition through the selective removal of the more palatable species, soil compaction and erosion,
and the introduction of weed seed and nutrients.
Trudgen et al. (2006) notes that the lower shrubs, herbs and sedge layers located on the edges of
occurrences that are not rocky and where the vegetation is more open, are heavily impacted by
livestock. Observations on-ground also suggest that areas dominated by Allocasuarina campestris are
more heavily affected by grazing than areas dominated by Kunzea praestans (Trudgen et al. 2006). The
least affected areas were generally those dominated by Regelia megacephala as they are mostly dense
vegetation and very rocky, making access more difficult for livestock.
Grazing contributes to the introduction and spread of weeds via animal faeces, paws, hooves and coats,
and can also lead to the trampling and compaction of soil and smaller plants. Grazing and subsequent
weed invasion can have a negative effect on native species regeneration after fire or other disturbances
(Trudgen et al. 2006).
Most occurrences of the Coomberdale Chert TEC have been or are still actively grazed and the impact of
this grazing has not been quantified through monitoring. Current grazing pressures are from both
native animals such as kangaroos and emus, which are often restricted to unnaturally small areas due to
roads, paddocks and fences, as well as livestock and rabbits. Occurrences completely fenced off from
livestock include occurrences 1, 3 and 7 and most of the southern portion of occurrence 5.
Weed invasion
Weeds can have significant impacts on vegetation through competition with the native species,
prevention of regeneration and alteration of fire regimes (Hobbs and Mooney 1993). Disturbances such
as fires and grazing can predispose areas to weed invasion if weed propagules are present. All of the
occurrences of the Coomberdale Chert TEC are close to agricultural areas which act as a weed source
through carrying agents including wind and animals, and are vulnerable to weed invasion following any
disturbance. Occurrence 4 in particular experiences a great deal of soil movement due to the mining
and associated tracks and trucks.
Trudgen et al. (2006) identified twenty-five weed species in the survey area. Most of the weeds recorded
are not highly aggressive species, however, the number of weed species recorded was high. The edges
of occurrences and occurrences rated as poor condition appear to be more affected by weed species
(Trudgen et al. 2006).
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A weed control program may be necessary to maintain or improve the current condition of occurrences
of the community in the long term. Brown and Brooks (2002) state that the generic aims of weed
control are to maintain the pre-invasion condition of the habitat (prevention), control or arrest ongoing
weed invasion (intervention), and reverse the degraded condition of the habitat where applicable
(rehabilitation).
Altered fire regimes
Fire can influence the species composition in vegetation in a number of ways. Some species depend on
the heat and smoke generated by fire for their seeds to germinate (Knox et al. 2001), and Mediterranean
ecosystems are usually fire responsive and may require a particular fire regime to assist regeneration
(Abbott and Burrows 2003). If an appropriate fire frequency is exceeded, however, species that are
obligate seeders may not have sufficient time to mature, flower and produce sufficient seed to
regenerate the community. If the time between fires is too long, obligate seeders may senesce and be
unable to regenerate. Therefore, bushfires or prescribed burns must occur at appropriate intervals, and
if possible at the appropriate season and intensity, to sustain the integrity of plant communities.
The risk of fire is generally increased by the presence of grassy weeds in the understorey which are likely
to be more flammable than the naturally occurring herb layer. Many of the weeds recorded in the
Coomberdale Chert TEC are in fact grassy weeds (Trudgen et al. 2006). The disturbance caused by fires
can also provide optimum opportunities for weed species to outcompete native species, however, the
disturbance caused by fire can promote diversity (Knox et al. 2001).
It may be possible that the species composition within occurrences of the Coomberdale Chert TEC has
been affected by long periods of fire absence. Research into the ecological attributes and fire responses
of this community is therefore important in ensuring the most appropriate burning regime is adopted.
Burrows (2008) notes that there is no single optimum fire regime that will meet all management
objectives, but that there are fire regimes that can be applied based on available evidence. Burrows
(2008) recommends fire regimes based on vital attributes, regimes that provide for diversity of
frequency, season and intensity, and provide habitat diversity, and a fine-grain mosaic of habitats.
Burrows (2008) suggest that if these fire regimes are implemented in an adaptive management
framework, they provide good data and can lead to better fire management.
The juvenile period of many species that occur in the community is listed in Appendix 3. Although the
juvenile periods of many taxa are not known, the data included in Appendix 3 can be used as a guide
for the community. Burrows et al. (2008) recommend a minimum period between fires that are lethal to
fire-sensitive plants (obligate seeders with long juvenile periods) of at least twice the juvenile period of
the slowest maturing species. That is, the juvenile period of plant taxa that are killed by fire and only
reproduce from seed can be used as a guide to determine minimum inter-fire intervals. In fire sensitive
habitats, this may be increased to 3-4 times the juvenile period for fire sensitive species (Barrett et al.
2009). In this particular community, Allocasuarina campestris and Allocasuarina huegeliana which are
core components of the TEC, are serotinous species that are killed by fire, hold seed in the canopy, and
reproduce only from seed. The juvenile period for each of these two species is 60 months (5 years),
therefore a minimum inter-fire period of ten years would be recommended for occurrences that contain
these species. It is important to note at this point that the juvenile period for other important taxa, in
particular, the rare plants occurring in the Coomberdale Chert TEC is not known, therefore the
precautionary principle applies until such time that more ecological information is known for these
species. Long juvenile periods of important component species should be taken into account when
designing appropriate fire regimes for this community.
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Drying climate also needs to be considered when designing appropriate fire regimes. It is likely that
reduced rainfall will cause diminishing growth rates, and plant maturation times may also increase.
Longer inter-fire intervals may therefore be required under such scenarios.
The Department of Parks and Wildlife fire records based on satellite imagery since 1972 suggest that
there have been no fires through the Coomberdale Chert TEC since 1972. Some private landholders,
however, have records of fires occurring since 1972. A fire swept through occurrence 5 in December
1981 damaging the community (G. Ridgeway, personal communication2). Hamilton-Brown (2000)
suggested that some of the species have still not recovered from the 1981 fire, including Regelia
megacephala. No post fire assessment, however, has been carried out to confirm and determine the
factors responsible for the apparent loss of species. A lightning strike started a fire in occurrence 4 in
2009 (J. Wheeler, personal communication, 20113). Many of the other occurrences on private property
have had a fire interval of at least 13-20 years (C. Gardiner and R. Tonkin, personal communication4,
2011).
Additional potential threats
Trudgen et al. (2006) noted that the cropping of agricultural lands involves the use of herbicides and
artificial fertilisers which could spread into the TEC and cause death or weakening of susceptible species
including soil fungi and associated symbiotic relationships. There are also a small number of disused
rubbish dumps within occurrences and these “are often foci for the introduction of weeds into native
vegetation and can also be a localised source of pollutants” (Trudgen et al. 2006 p. 106). There is also
very little known about the effects of hydrological changes and climate change, in particular, drying
climate on the community. All of these potential threats need to be considered during the
implementation of the recovery actions stated in this plan, in particular in monitoring to help determine
the level of potential impact and to help identify required amelioration.
3. Guide for decision-makers
Section 2 of this IRP provides details of current and possible future threats. Developments in the
immediate vicinity of the occurrences require assessment. No developments should be approved unless
the proponents can demonstrate that they will have no significant impact on the ecological community.
Actions that could result in any of the following may result in a significant impact to the community:
land clearing leading to loss of locations defined as „core areas‟ of the TEC
clearing leading to significant increase in fragmentation of the community
a significant increase in opportunity for introduction or increase in density of weeds or
introduced /feral animals known to damage the community
a significant increase in fire frequency
2 George Ridgeway: Landholder, Coomberdale
3 Jeffrey Wheeler: Land manager, Coomberdale
4 Colin Gardiner and Roger Tonkin: Landholders, Coomberdale
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4. Conservation status
The „community meets the following criteria for Endangered (EN) ecological communities:
B) Current distribution is limited, and
ii) There are few occurrences, each of which is small and/or isolated and all or most
occurrences are very vulnerable to known threatening processes
5. Recovery objectives and criteria
5.1. Objectives
To conserve the ecological and conservation values of the Coomberdale Chert TEC by:
Attaining conservation management of core vegetation alliances of the Coomberdale Chert TEC;
Ensuring the permanent protection and conservation of self sustaining representative samples
of the community across its range; and
Minimising the loss and maximising the conservation of all remaining community occurrences
as far as possible, including recovering degraded community occurrences where it is cost
effective and practical to do so.
5.2 Criteria for success:
An increase in the number of occurrences identified as „core areas‟ in this plan that are
managed for conservation and/or with conservation included in their purpose.
Representative areas of core vegetation alliances as identified in this plan with condition rank
maintained, or with improved condition rank (Bush Forever scales).
An increase in the number of occurrences of the community for which formal strategies are in
place to minimise loss and maximise conservation (such as fencing from stock or fire
management strategies in place and being implemented).
5.3 Criteria for failure:
Failure to achieve an increase in the number of core areas managed for conservation.
Complete loss or decline to degraded condition or poorer, of any core vegetation alliance
across its range as identified in this plan.
Failure to develop and implement formal strategies to manage key threats such as weed
invasion, or inappropriate fire regimes.
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6. Recovery actions
6.1. Existing recovery actions
The then Department of Mines, and Department of Conservation and Land Management successfully
negotiated with the holder of the Mineral Tenement to have the most significant occurrence of the
community at Cairn Hill declared a nature reserve.
All land managers/owners have been notified of the presence and importance of the TEC.
Detailed mapping of the eastern occurrences of the community has been completed by Trudgen et al.
(2006).
The gravel pit below Cairn Hill has been closed and partially rehabilitated.
The component threatened flora that occur in the community have been surveyed regularly.
Occurrences 3, 9, part of occurrence 5, and the northern portion of occurrences 1 and 19 have been
fenced from stock.
Occurrence 3 and part of occurrence 5 are covenanted under the Soil and Land Conservation Act 1945
(through the Remnant Vegetation Protection Scheme).
Articles were published about the community in Landscope magazine in 2000 and 2011.
6.2. Recommended recovery actions
Only two occurrences of the Coomberdale Chert TEC are managed for conservation by the Department
of Parks and Wildlife (DPAW). All other occurrences are on land not managed by DPAW. Permission
and cooperation will be sought from the appropriate land managers/owners prior to any recovery
actions being undertaken on their land.
The responsible agency is frequently listed as the relevant DPAW District. This refers largely to initiating
and guiding actions. In general, however, the relevant DPAW District, and the recovery team have the
primary responsibility for securing resources for recovery actions, with consideration for resourcing
limits and other high priority conservation work.
1. Continue to coordinate recovery actions
The Midwest threatened flora and communities recovery team consider all threatened ecological
communities and threatened flora in DPAW‟s Midwest Region. The team will continue to assist DPAW in
coordinating recovery actions for the community and other threatened flora and TECs in their region.
They will include information on progress in their annual reports to DPAW‟s Corporate Executive and
funding bodies.
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Responsibility: DPAW (Moora District, Midwest Region)
Cost: $4,000 per year
Completion date: meetings ongoing
2. Support private land managers to conserve the
community
All of the occurrences of the community apart from occurrence 7 and part of occurrence 1 are privately
owned. Three occurrences (4, 5 and 9) have mining tenements over them. The involvement of land
managers, local indigenous people (Yued language group) and community groups (e.g. Northern
Agricultural Catchments Council) and industry in the recovery of the community will be important to the
recovery process.
Landowners that have this community on their lands will be advised of incentives (financial and
otherwise, such as through the provision of technical information) that are available to ensure long term
protection of the community. Incentives for protection are available through a number of programs,
including Nature Conservation Covenant Programs, Land For Wildlife and other funding schemes which
may be available (e.g. „Caring for our Country‟). Occurrence 3 and part of occurrence 5 are covenanted
under the Soil and Land Conservation Act 1945 (through the Remnant Vegetation Protection Scheme).
Fencing is necessary to prevent degradation due to grazing. Occurrences 2, 5, 8 and 10, along with a
number of other small occurrences are currently unfenced and are grazed. Occurrence 2 in particular is
heavily grazed. For those occurrences that are already fenced (occurrences 3, 9, part of occurrence 5,
and the northern portion of occurrences 1 and 19), the requirement for fence maintenance should be
determined.
To prevent accidental destruction of the community, and gain public support for its conservation,
information about the community will continue to be provided to all stakeholders including
landholders, and managers of land containing the community. This would include information from the
TEC database, maps indicating the location of the community, and this plan. Information about private
land should only be provided to the landholders, unless permission is granted by them to allow wider
dissemination of the land details.
Presentations to the local community may be useful to foster a sense of ownership of the Coomberdale
Chert TEC, in particular, „Cairn Hill‟ Nature Reserve, and efforts should be made to engage students from
the district high school and two primary schools in the town of Moora.
District DPAW staff should ensure regular liaison with landowners and managers of land that contain
the community to ensure TEC information is up-to-date.
Responsibility: DPAW (Moora District and Species and Communities Branch (SCB)) in
consultation with land owners and managers
Estimated cost: $5,000 pa for all liaison (not including vehicle costs)
Completion date: Ongoing
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3. Clarify extent, and habitat critical to survival of the
community
As noted previously, the habitat critical to the survival of the Coomberdale Chert TEC is the
Coomberdale, or Noondine, chert formation. There are a number of vegetated areas of the Noondine
chert formation evident from geological maps that may not have been surveyed for presence of the
Coomberdale Chert TEC. These areas should be investigated utilising a combination of high quality
orthophotography and ground-truthing.
If any additional occurrences are located, then these will be accurately mapped and added to the
corporate TEC database.
As there have been failed attempts to grow some of the component species of the Coomberdale Chert
TEC on mined areas, further investigation is required into the presence of chert as being critical for the
survival of this community. This may have implications relating to the mining of chert in the core TEC.
Responsibility: DPAW (Moora District and SCB) in consultation with land owners and managers
Cost: $15,000 in year one, $2,000 pa thereafter
Completion date: Years 1 and 2
4. Seek to acquire occurrences to help protect the
diversity of the community
All of the occurrences of the community apart from occurrence 7 and part of occurrence 1 are privately
owned. Occurrences 4, 5 and 9 have mineral tenements over them, and all other privately owned
occurrences are on agricultural land. One occurrence is in a water reserve.
If management for conservation seems unlikely to result from actions in this plan, and if properties
containing occurrences of the community become available for purchase or new occurrences are
identified, DPAW will seek to acquire occurrences and adequate buffer areas as Class A reserves for the
purpose of „Conservation of Flora and Fauna‟ and place them under the care, control and management
of the Conservation Commission.
DPAW will continue to negotiate to seek transfer of unmanaged land that contains the community that
has been identified as containing the highest conservation value occurrences to the Conservation
Commission of WA as Class A reserves as follows:
i) The northern section of occurrence 1
This area should be included as a continuation of the „Cairn Hill‟ Nature Reserve in
exchange for the unallocated Crown land (UCL) east of Cairn Hill
ii) Occurrence 3
This occurrence has been fenced off for many years and is mostly in very good to excellent
condition
iii) Any other occurrences which contain the ‘core’ vegetation associations as described in this
plan
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Responsibility: DPAW (Midwest Region, Land Unit and SCB); with assistance from the Recovery
Team
Cost: Market price of land at time of purchase.
Completion date: When land and resources become available
5. Design and implement a monitoring program
A Monitoring Protocol (MoP) should be developed based on relevant protocols such as “Monitoring the
effects of stock access and weed invasion on vegetation units within the Billeranga System threatened
ecological community” (Hunter and Harding 2009).
The monitoring should be linked to areas where active management or impacts are anticipated, so that
the analysis of results can be incorporated to improve management (e.g. of mining, fire, weed control
and limiting livestock access) as is recommended for an adaptive management framework.
Monitoring should encompass the installation of permanent quadrats and photo points. Permanent
quadrats have been set up in most occurrences (Trudgen et al. 2006) except occurrences 6, 7 and 8.
Where vegetation is in suitable condition, permanent quadrats should be established in these additional
areas, utilising methods as described in Trudgen et al. (2006). Data collected should include weed levels,
flora species diversity and composition as well as density or cover for each flora species. Monitoring
should be undertaken every five years to provide information on composition and condition change.
This information will then be added to the TEC database.
Remote sensing data such as „Vegetation Trend‟ from Landsat™ provides a coarse measure of change in
vegetation cover and may be useful for this community. The interpretation of these data requires
ground truthing as factors such as recovery from fire may not otherwise be evident. This remote sensing
method may be suitable for some aspects of monitoring in future.
The extent and boundaries of occurrences also require monitoring. Most occurrences have been
accurately mapped by Trudgen et al. (2006) using aerial photography, and ground-truthed with Global
Positioning System (GPS) recordings. Extent and boundary information should be monitored regularly,
stored in a Geographic Information System database and continue to be updated on the TEC database.
Occurrences 6, 7 and 8 in particular require improved mapping on-ground.
Responsibility: DPAW (Moora District, Science Division and SCB) in consultation with land
owners and managers
Cost: $20,000 in the first and 5th
years
Completion date: Ongoing
6. Design and implement a weed control program
As all occurrences are adjacent to cleared farmland and most have some level of weed infestation, a
weed control strategy is required that takes into account the nature of the community and the need for
continuing maintenance. Most weed species infesting this community are not considered aggressive,
however. The weed control program should involve the following:
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1. Identifying and mapping the major weed species.
2. Designing a weed control program detailing strategies/plans for each occurrence based on
information from weed mapping. Each plan needs to identify the highest priority weed species that
pose the greatest threat to the community.
3. The selection of the appropriate weed control methods, which may include hand weeding, localised
application of herbicide or even fencing to avoid livestock access. Methods of weed control can be
found in Brown and Brooks (2002) and the Standard Operating Procedure SOP 22: Techniques for
mapping weed distribution and density in bushland and wetlands by Brown et al. (2011).
4. The opportunistic control of invasive weeds by hand or spot spraying as soon as the weeds emerge.
Rehabilitation through reintroduction of local native species may be necessary if areas are no longer
capable of regenerating following weed control. Piles of weed-contaminated soil should be removed
and the areas replanted. Tracks excess to requirements should be blocked, and left to revegetate
naturally. Only seed from the same occurrence should be used for rehabilitation. No seed from other
areas should be introduced into occurrences.
Weed monitoring should include the monitoring of success of any weed control undertaken. Methods
for such a monitoring program can be sourced from Brown and Clarke (2009). Detailed monitoring is
required to quantify the effects of on-ground management. Determining the impact of factors such as
changed fire frequency would require a monitoring program such as that established by Clarke (2009).
Responsibility: DPAW (Moora District and SCB) in consultation with land owners and managers
Estimated cost: $10 000 per year
Completion date: Ongoing
7. Implement a fire regime within an adaptive
management framework
There is a need for research into the recovery of the community from fire, and to determine the
implications of findings for management. This includes developing a fire history map of the occurrences,
which is updated annually.
Burrows et al. (2008) recommend a minimum period between fires that are lethal to fire-sensitive plants
(obligate seeders with long juvenile periods) of at least twice the juvenile period of the slowest maturing
species. Burrows (2008) also recommends that fire regimes be determined based on vital attributes, a
diversity of frequency, season and intensity, and provide for habitat diversity and a fine-grain mosaic of
habitats.
The juvenile periods for some taxa in the community that may be fire-sensitive are not known. Appendix
3 contains a list of species for which there is data available with regard fire response. The species
Allocasuarina campestris and Allocasuarina huegeliana both occur in the Coomberdale Chert TEC, and
both are killed by fire, store seed in the canopy and have a maturation time of five years. As a start point
it is therefore recommended that an absolute minimum inter-fire interval of ten years be implemented
in the community, and this should be applied in a variety of seasons, and intensities, for example 60-
80% of an occurrence to be burnt in a low intensity spring burn. This should be interspersed with much
longer inter-fire intervals such as 3-4 times the juvenile period of the slowest maturing species, which
on currently available information for taxa in the community would be 15 – 20 years. In addition, the
drying climate needs to be considered when designing appropriate fire regimes. It is likely that reduced
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rainfall will cause diminishing growth rates, and plant maturation times will also be prolonged. Longer
inter-fire intervals will therefore be desirable in the current drier climatic scenario.
The outcomes of implementation of this regime on the composition and structure of the community
should be quantitatively monitored and results and data analysis incorporated into an adaptive
management framework to assess the requirement to modify the fire regime over time.
Responsibility: DPAW (Moora District, Science Division, SCB) in consultation with stakeholders
Estimated cost: $5,000 per year for monitoring and annual review
Completion date: Ongoing
8. Develop and implement a fire management strategy
A fire management strategy should be developed with landowners and the relevant authorities. The
strategy should deal with minimising wildfires, the location of firebreaks/fire-fighting access tracks, fire
management (including the need for and design of prescribed burns), and fire suppression. The strategy
should include an annual fire monitoring and reporting schedule.
Maintenance of existing firebreaks is appropriate where firebreaks are already constructed, unless
maintenance is likely to degrade the community. No new firebreaks should be constructed in intact
vegetation and most occurrences are already surrounded by cleared land which could be used for this
purpose. Local DPAW staff should provide advice where appropriate in the planning, construction and
maintenance of fire breaks for all occurrences of the community. The use of heavy machinery to create
new fire breaks within the community should be avoided because additional disturbance would
encourage further weed invasion, and chemicals that may be toxic to the community should not be
used.
Local DPAW staff should maintain contact with landholders in relation to information about wildfires
and controlled burns and when possible, a local DPAW staff member should be present during
controlled burns in remnants that contain occurrences of the community to provide advice on
protecting the conservation values of the community.
Local DPAW staff will liaise with owners and surrounding landholders to prevent burning at
inappropriate times when fires are likely to spread to the community or surrounding property.
Responsibility: DPAW (Moora District, Science Division SCB) in consultation with land owners
and managers of land containing, or adjacent to, the community
Estimated cost: Cost of firebreaks $5,000 pa
Completion date: Ongoing
9. Implement replanting and rehabilitation where
necessary
Occurrences will be rehabilitated, as required where they have suffered disturbance due to gravel
extraction, grazing, weed invasion, damaging fires and impacts due to mining activity. For example
some grid lines or tracks have become new drainage lines (Pringle et al. 2004) and have altered the local
hydrology. Gravel pits and waste dumps should be re-contoured and rehabilitated. Rehabilitation
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undertaken so far on disused mine waste has not been successful in fully re-establishing the suite of
species and vegetation within this community. The appropriate species to use for rehabilitation can be
identified from plot data collected by Trudgen et al. (2006) for each occurrence. These species should
be propagated from stock from surrounding areas to preserve local provenance.
Responsibility: DPAW (Moora District) in consultation with land owners and managers
Estimated cost: $5,000 per year
Completion date: Ongoing
10. Determine the community‟s hydrological
requirements
There is little known about the hydrological requirements of plant species of the Coomberdale Chert
TEC. The drying climate could possibly cause some species or particular vegetation units to suffer from
drought stress, and it is also possible that mining below the water table may impact the community. The
underlying Noondine Chert may also contain a rich stygofauna that may potentially be impacted by
hydrological changes such as dewatering..
Historical and current data from suitable bores in occurrences likely to be remote from most human-
induced changes, and in some in which hydrological change is suspected will be examined to determine
trends in groundwater levels and quality. This will provide a description of the normal range and
fluctuation in water levels and quality. Data may also be indicative of tolerance levels when linked with
monitoring of the composition of the community. There are a number of bores for agricultural and
household purposes around the area, however, they are all located low in the landscape. According to a
DPAW file note, there are two bores on Cairn Hill which were used to sample stygofauna, however,
these bores are yet to be re-located. Hydrological monitoring should include the installation of data
loggers and a weather station at Cairn Hill, to help relate the data to local climatic variations.
Hydrology needs to be managed within an adaptive management framework, with detailed quantitative
monitoring of floristic composition and structure linked to areas where there is likely to be significant
hydrological change in terms of groundwater or surface water levels or quality. This is particularly
pertinent in relation to possible future mining for chert below the water table.
Once the hydrological requirements of the Coomberdale Chert community are better understood,
careful monitoring and appropriate management of the groundwater levels may be required to
minimise long-term impacts to the community.
Responsibility: DPAW (Moora District, SCB, Natural Resources Branch) in consultation with
landholders, land managers
Cost: $10,000pa to investigate available data, set up hydrological monitoring,
undertake measurements and analyse data (possibly a PhD project).
Completion date: Ongoing
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11. Obtain biological and ecological information
Little is known about the biology and ecology of the community restricted to the Coomberdale (or
Noondine) chert formation. In addition to Recovery Actions 7 and 10, an understanding of the biology
of the dominant, rare and sensitive flora species and the ecological relationship between species (flora
and fauna), substrate, hydrology and fire, will help to guide the future management of the TEC.
Responsibility: DPAW (Moora District, SCB, Science Division) in consultation with landholders,
land managers
Cost: $10,000 per year to research the biological and ecological characteristics of the
community components and to collate data collected in Recovery Actions 7 and
10 (possibly an Honours, Masters or PhD project).
Completion date: Year 5
12. Seek to amend community name
The Western Australian TEC Scientific Committee recommend that „Vegetation alliances on ridges and
slopes of the chert hills of the Coomberdale Floristic Region‟ more accurately reflects the nature of the
Coomberdale Chert TEC than the currently accepted name. DPAW will seek to change the name of the
community through the WA Minister for Environment when enabling legislation is in place.
Responsibility: DPAW (SCB)
Estimated cost: Minimal costs
Completion date: Ongoing
13. Report on recovery plan implementation
Reporting on recovery actions will form part of annual reports prepared by the Recovery Teams for
DPAW‟s Corporate Executive, and will include results of analysis of monitoring results within an adaptive
management framework. Summaries of annual reports are provided in WATSNU, the newsletter of
Species and Communities Branch and are published on DPAW‟s internet site. A final report will be
completed as part of the review of this plan, which will include a review of outcomes against the plan‟s
success criteria. The recovery plan will be updated at the end of the five year term, if deemed necessary.
Responsibility: DPAW (Moora District, SCB)
Cost: $3,000 pa
Completion date: Year 5
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7. REFERENCES
Abbott, I. and Burrows, N. (eds) (2003). Fire in ecosystems of south-west Western Australia: impacts and
management. Bachhuys Publishers, Leiden, Netherlands.
Appleyard, S. (2002). Palaeokarst in the Noondine Chert in Southwestern Australia: Implications for
Water Supply and the Protection of Biodiversity. Helictite 38(1): 17-19.
Barrett, S., Comer, S., McQuoid, N., Porter, M., Tiller, C. and Utber, D. (2009). Identification and
Conservation of Fire Sensitive Ecosystems and Species of the South Coast Natural Resource
Management Region. Department of Environment and Conservation, South Coast NRM. Albany,
Western Australia.
Baxter, J. L. and Lipple, S. L. (1985). Perenjori, Western Australia. 1:250,000 Geological Series –
Explanatory Notes. Geological Survey of Western Australia, Perth.
Brown, K. and Brooks, K. (2002) Bushland weeds; a practical guide to their management. Environmental
Weeds Action Network (Inc), Western Australia.
Brown, K., Bettink, K., Paczkowska, G., Cullity, J., and French, S. (2011). Standard Operating Procedure:
Techniques for mapping weed distribution and cover in bushland and wetlands SOP No:22.
Department of Environment and Conservation, Perth.
Brown, K. and Clarke, V. (2009). Weed control within Brixton Street Wetlands Herb Rich Shrublands in
Clay Pans (FCT 8) Threatened Ecological Community. Unpublished report prepared for Significant
Native Species and Ecological Communities – Resource Condition Monitoring Project. Department
of Environment and Conservation, Perth.
Burrows N.D. (2008). Linking fire ecology and fire management in south-west Australian forest
landscapes. Forest Ecology and Management. 255: 2394–2406.
Burrows N.D., Wardell-Johnston, G. and Ward, G. (2008). Post fire juvenile periods of plants in south-
west Australian forests and implications for fire management. Journal of the Royal Society of Western
Australia. 91: 163-174.
Carter, J. D. and Lipple, S. L. (1982). Moora, Western Australia. 1:250,000 Geological Series – Explanatory
Notes. Geological Survey of Western Australia, Perth.
Clarke, V. (2009). Monitoring the impacts of fire and Phytophthora within the shallow soil plant
communities of the Mt Lindesay Threatened Ecological Community, Denmark WA. Unpublished
report prepared for Significant Native Species and Ecological Communities – Resource Condition
Monitoring Project. DEC, Perth.
Environmental Protection Authority (2001). Extension of Quartz Mining and Strategy for Resource
Access and Biodiversity Conservation. Section 46 Report and Recommendations of the
Environmental Protection Authority. Proponent Simcoa Operations Pty Ltd. EPA Bulletin, 1027, 3
September 2001.
Department of Environment and Conservation (2007). Comprehensive Adequate Representative (CAR)
Reserve Analysis. Perth, Western Australia.
Griffin, E. A. (1992). Floristic survey of remnant vegetation in the Bindoon to Moora area, Western
Australia. Agriculture Western Australia Resource Management Technical Report 142. Perth.
Griffin, E. A. (1994). Floristic Survey of Northern Sandplains between Perth and Geraldton, Western
Australia. Agriculture Western Australia Resource Management Technical Report 144. Perth.
Government of Western Australia (2000). Bush Forever. Department of Environmental Protection, Perth.
Hamilton-Brown, S. (2000). Heath dominated by one or more of Regelia megacephala, Kunzea praestans
and Allocasuarina campestris on ridges and slopes of the chert hills of the Coomberdale Floristic
Region. Interim Recovery Plan No. 65; 2000-2003. Department of Conservation and Land
Management, Perth, Western Australia.
Interim Recovery Plan No. 338
20
Hobbs, R. J. and Mooney, H. A. (1993). Restoration ecology and invasions. In Nature Conservation 3:
Reconstruction of Fragmented Ecosystems. pp 127-133, Saunders, D. A., Hobbs, R. J. and Ehrlich, P. R.
(eds). Surrey Beatty and Sons: NSW.
Hunter, M. and Harding, C. (2009). Monitoring Protocol: Monitoring the effects of stock access and weed
invasion on vegetation unit within the Billeranga System threatened ecological community. Version
Number 1.0 (June 2009). Prepared for the Resource Condition Monitoring - Significant Native
Species and Ecological Communities Project, Department of Environment and Conservation.
Knox, I., Bruce, R., Ladiges, P., Evans, B., and Saint, R. (2001). Biology (2nd
ed.). McGraw-Hill: Australia.
Logan, B. W. and Chase, R. L. (1961). The stratigraphy of the Moora Group. Journal of the Royal Society
of Western Australia 44: 14-31.
Pringle, H.J., Carter, G.A., James J.L and O‟Conner, R.E.Y. (2004). The impact of mining and mining
exploration activity on range resources and pastoral pursuits in the Pilbara, Gascoyne Murchison
and Goldfields Regions of Western Australia. Resource Management Technical Report No. 116.
Department of Agriculture W.A.
Robinson, S. (2001). Variation to the Moora Quartz Mine on M70/191 (Western Ridge pit): Amendment
to Conditions under s.46 of the Environmental Protection Act. Consultant‟s report prepared for
Simcoa Operations Pty Ltd.
Smith, M. (2010) Declared Rare and Priority Flora List for Western Australia. Department of Environment
and Conservation, Perth, Western Australia.
Trudgen, M.E., and Adam, C. (2011). A report on the rehabilitation of mine waste at the Simcoa Moora
Chert Mine based on monitoring in October and November 2011. Prepared for Simcoa Operations
Pty Ltd.
Trudgen, M.E., Morgan, B., and Griffin, E.A. (2006). A flora survey, floristic analysis and vegetation survey
of the Coomberdale Chert TEC. Prepared for Simcoa Operations Pty Ltd. Perth.
APPENDIX 1
Summary of costs Recovery Action Year 1 Year 2 Year 3 Year 4 Year 5
Continue to coordinate recovery actions $4,000 $4,000 $4,000 $4,000 $4,000
Support private land managers to conserve the community $5,000 $5,000 $5,000 $5,000 $5,000
Clarify extent, and habitat critical to survival of the community $15,000 $2,000 $2,000 $2,000 $2,000
Seek to acquire occurrences to help protect the diversity of the
community
TBD TBD TBD TBD TBD
Design and implement a monitoring program $20,000 - - - $20,000
Design and implement a weed control program $10,000 $10,000 $10,000 $10,000 $10,000
Implement a fire regime within an adaptive management framework $5,000 $5,000 $5,000 $5,000 $5,000
Develop and implement a fire management strategy $5,000 $5,000 $5,000 $5,000 $5,000
Implement replanting and rehabilitation where necessary $5,000 $5,000 $5,000 $5,000 $5,000
Determine the community‟s hydrological requirements $10,000 $10,000 $10,000 $10,000 $10,000
Obtain biological and ecological information $10,000 $10,000 $10,000 $10,000 $10,000
Seek to amend community name - - - - -
Report on recovery plan implementation $3,000 $3,000 $3,000 $3,000 $3,000
Totals $92,000 $59,000 $59,000 $59,000 $79,000
Overall total over 5 years: $348,000
Appendix 2
Location of the Coomberdale Chert TEC, Moora, Western Australia
Interim Recovery Plan No. 338
2
APPENDIX 3
Ecological characteristics of flora from the seven core vegetation alliances of the
Coomberdale Chert TEC Taxon Fire Response (Source-
NatureMap)
Months to
first
flowering
(Source-
NatureMap)
Longevity (Source-
NatureMap)
Dieback response
(Source-NatureMap)
Acacia hemiteles
100% scorch kills, in soil seed
storage
36 Perennial Inferred evidence of
resistance
Acacia microbotrya
100% scorch kills, in soil seed
storage
48 Perennial Inferred evidence of
resistance
Acacia pulchella
100% scorch kills, in soil seed
storage
24 Perennial Some evidence of
resistance
Acacia saligna
100% scorch kills, in soil seed
storage
36 Perennial Inferred evidence of
resistance
Acacia stenoptera
100% scorch kills, in soil seed
storage
36 Perennial Inferred evidence of
resistance
Agrostocrinum
scabrum
100% scorch kills, in soil seed
storage
22 Perennial ND
Allocasuarina
campestris
100% scorch kills, on plant seed
storage
60 Perennial Inferred variable
susceptibility
Allocasuarina
huegeliana
100% scorch kills, on plant seed
storage
60 Perennial Inferred moderate
susceptibility
Allocasuarina humilis
Survives 100% scorch, basal
sprouts
36 Perennial Inferred high
susceptibility
Allocasuarina
microstachya
Survives 100% scorch, basal
sprouts
48 Perennial Inferred high
susceptibility
Astroloma
serratifolium
Survives 100% scorch, soil suckers 24 Perennial ND
Austrodanthonia
caespitosa
Survives 100% scorch, basal
sprouts
20 Perennial ND
Austrostipa
compressa
100% scorch kills, in soil seed
storage
6 Annual Good evidence of
resistance
Austrostipa
macalpinei
100% scorch kills, in soil seed
storage
12 Perennial ND
Burchardia umbellata
Geophyte (Survives 100% scorch) 18 Perennial Some evidence of
resistance
Caladenia flava
subsp. flava
Geophyte (Survives 100% scorch) 9 Perennial ND
Interim Recovery Plan No. 338
3
Calandrinia
calyptrata
100% scorch kills, in soil seed
storage
6 Annual ND
Calothamnus
sanguineus
Survives 100% scorch, basal
sprouts
36 Perennial ND
Calytrix depressa
Survives 100% scorch, basal
sprouts
ND Perennial ND
Calytrix leschenaultii
100% scorch kills, in soil seed
storage
36 Perennial ND
Comesperma volubile
Survives 100% scorch 20 Perennial ND
Cyanicula deformis
Geophyte (Survives 100% scorch) 18 Perennial ND
Cyrtostylis huegelii
Geophyte (Survives 100% scorch) 12 Perennial Inferred evidence of
resistance
Dianella revoluta var.
divaricata
Survives 100% scorch, soil suckers 36 Perennial ND
Dichopogon capillipes
Survives 100% scorch, soil suckers ND Perennial ND
Dioscorea hastifolia
Survives 100% scorch, basal
sprouts
ND Perennial ND
Drosera pallida
Geophyte (Survives 100% scorch) 12 Perennial Good evidence of
resistance
Dryandra fraseri
100% scorch kills, on plant seed
storage
48 Perennial Inferred variable
susceptibility
Dryandra sessilis
100% scorch kills, on plant seed
storage
48 Perennial Inferred moderate
susceptibility
Elythranthera
brunonis
Geophyte (Survives 100% scorch) 24 Perennial Inferred evidence of
resistance
Eriochilus dilatatus
Geophyte (Survives 100% scorch) 12 Perennial Inferred evidence of
resistance
Eucalyptus
salmonophloia
Survives 100% scorch, epicormics 60 Perennial ND
Eucalyptus wandoo
subsp. wandoo
Survives 100% scorch, epicormics 48 Perennial Good evidence of
resistance
Haemodorum
paniculatum
Geophyte (Survives 100% scorch) 6 Perennial ND
Haemodorum
simulans
Geophyte (Survives 100% scorch) 12 Perennial ND
Hakea incrassata
Survives 100% scorch, basal
sprouts
24 Perennial ND
Hakea lissocarpha
Survives 100% scorch, basal
sprouts
29 Perennial Some evidence of
variable susceptibility
Hyalosperma cotula
100% scorch kills, in soil seed
storage
12 Annual ND
Interim Recovery Plan No. 338
4
Isotoma
hypocrateriformis
100% scorch kills, in soil seed
storage
12 Annual ND
Kennedia prostrata
100% scorch kills, in soil seed
storage
18 Perennial Inferred evidence of
resistance
Lagenophora huegelii
Survives 100% scorch 12 Perennial ND
Laxmannia
omnifertilis
100% scorch kills, in soil seed
storage
ND Perennial ND
Lechenaultia biloba
Survives 100% scorch, soil suckers 24 Perennial ND
Lepidobolus
chaetocephalus
Survives 100% scorch, basal
sprouts
ND Perennial ND
Lepidosperma
leptostachyum
Survives 100% scorch, soil suckers 24 Perennial Inferred evidence of
resistance
Lepidosperma tenue
Survives 100% scorch, basal
sprouts
12 Perennial ND
Leporella fimbriata
Geophyte (Survives 100% scorch) 12 Perennial Inferred evidence of
resistance
Melaleuca radula
Survives 100% scorch, basal
sprouts
36 Perennial ND
Millotia
myosotidifolia
Killed by 100% scorch 12 Annual ND
Muehlenbeckia
adpressa
100% scorch kills, in soil seed
storage
30 Perennial ND
Neurachne
alopecuroidea
Survives 100% scorch, soil suckers 13 Perennial Inferred evidence of
resistance
Nuytsia floribunda
Survives 100% scorch, epicormics 24 Perennial ND
Opercularia vaginata
100% scorch kills, in soil seed
storage
24 Perennial ND
Orthrosanthus laxus
var. gramineus
Survives 100% scorch, soil suckers ND Perennial ND
Pimelea imbricata
var. piligera
100% scorch kills, in soil seed
storage
18 Perennial Some evidence of
variable susceptibility
Podolepis gracilis
Killed by 100% scorch 12 Annual ND
Podotheca
gnaphalioides
100% scorch kills, in soil seed
storage
ND Perennial ND
Pterochaeta
paniculata
100% scorch kills, in soil seed
storage
ND Annual ND
Interim Recovery Plan No. 338
5
Pterostylis recurva
Geophyte (Survives 100% scorch) 24 Perennial Inferred evidence of
resistance
Pterostylis scabra
Geophyte (Survives 100% scorch) 12 Perennial Inferred evidence of
resistance
Pterostylis vittata
Geophyte (Survives 100% scorch) 9 Perennial Inferred evidence of
resistance
Quinetia urvillei
100% scorch kills, in soil seed
storage
9 Annual ND
Scaevola anchusifolia
100% scorch kills, in soil seed
storage
18 Perennial ND
Sowerbaea laxiflora
Survives 100% scorch, soil suckers 7 Perennial ND
Stackhousia
monogyna
Killed by 100% scorch 12 Perennial ND
Stylidium calcaratum
100% scorch kills, in soil seed
storage
7 Ephemera ND
Stylidium repens
Survives 100% scorch, soil suckers 7 Perennial Good evidence of
resistance
Stypandra glauca
Survives 100% scorch, soil suckers 18 Perennial ND
Thomasia grandiflora
Survives 100% scorch, basal
sprouts
20 Perennial ND
Thysanotus
dichotomus
Survives 100% scorch, soil suckers ND Perennial ND
Thysanotus
manglesianus
Survives 100% scorch, soil suckers 6 Perennial ND
Thysanotus
multiflorus
Survives 100% scorch, soil suckers 12 Perennial ND
Trachymene pilosa
100% scorch kills, in soil seed
storage
12 Annual ND
Tricoryne elatior
100% scorch kills, in soil seed
storage
24 Perennial ND
Tripterococcus
brunonis
Survives 100% scorch, soil suckers 8 Perennial ND
Wahlenbergia
gracilenta
100% scorch kills, in soil seed
storage
9 Annual ND
Xanthorrhoea
drummondii
Survives 100% scorch, large apical
bud
6 Perennial ND
Source: NatureMap (accessed 2011)
ND = no data available in NatureMap
Interim Recovery Plan No. 338
6
Appendix 4
Vegetation Association descriptions for “core” communities as per Trudgen et al.
(2006)
Vegetation Alliance 13: Allocasuarina campestris high shrublands to open and closed scrub.
Association Description
Ac Allocasuarina campestris open to closed scrub over scattered sedges/grasses/herbs
AcAa Acacia acuminata subsp. acuminata, Allocasuarina huegeliana low woodland over
Allocasuarina campestris high open shrubland to high shrubland.
AcAh Allocasuarina huegeliana, (Acacia acuminata subsp. acuminata) low open woodland to low
open forest over Allocasuarina campestris high open shrubland to open to closed scrub.
AcAhu Banksia sessilis var. sessilis scattered tall shrubs over Allocasuarina campestris, Allocasuarina
humilis open scrub over Hibbertia subvaginata shrubland.
AcAs Acacia scirpifolia, Acacia saligna high open shrubland over Allocasuarina campestris,
(Calothamnus quadrifidus var. Moora-Watheroo) closed scrub over Melaleuca calyptroides,
Acacia congesta subsp. congesta open shrubland.
AcB Allocasuarina campestris open scrub over Baeckea sp. Moora (R.Bone 1993/1) low open
shrubland to open heath.
AcCq Allocasuarina campestris, Calothamnus quadrifidus var. Moora-Watheroo open to closed
scrub.
AcDs Allocasuarina huegeliana, (Acacia acuminata subsp. acuminata) low open woodland
scattered low trees to low open woodland over Banksia sessilis var. sessilis scattered tall
shrubs to high open shrubland over Allocasuarina campestris open to closed scrub.
AcEe Eucalyptus eudesmioides subsp. eudesmioides scattered low mallees to low mallee woodland
over Allocasuarina campestris open scrub over Baeckea sp. Moora (R. Bone 1993/1)
scattered low shrubs to low shrubland.
AcEl Eucalyptus loxophleba subsp. loxophleba low open woodland to low open forest over
Allocasuarina campestris open scrub.
AcEw Eucalyptus wandoo subsp. wandoo low open woodland over Allocasuarina campestris open
to closed scrub.
AcHa Allocasuarina campestris scattered tall shrubs over Hypocalymma angustifolium low open
shrubland over Pityrodia dilatata low open shrubland.
AcHs Allocasuarina campestris open to closed scrub over Hibbertia subvaginata scattered low
shrubs to low open shrubland.
AcId Allocasuarina campestris open to closed scrub over Isopogon divergens open shrubland.
AcMr Allocasuarina huegeliana, Acacia acuminata subsp. acuminata low open woodland to low
woodland over Allocasuarina campestris, (Melaleuca radula) open scrub.
AcMs Acacia acuminata subsp. acuminata scattered low trees over Allocasuarina campestris open
to closed scrub over Melaleuca sclerophylla open shrubland.
AcRm Regelia megacephala high open shrubland to shrubland over Allocasuarina campestris open
to closed scrub.
Vegetation Alliance 14: Allocasuarina microstachya open scrub
Association Description
Am Allocasuarina huegeliana scattered low trees over Allocasuarina microstachya, Kunzea
praestans open scrub over Calytrix leschenaultii, Calytrix depressa scattered low shrubs over
Interim Recovery Plan No. 338
7
scattered sedges/grasses and open herbland.
Vegetation Alliance 15: Regelia megacephala high shrubland to open and closed scrub
Association Description
Rm Regelia megacephala open scrub
RmAh Allocasuarina huegeliana low open woodland to low open forest over Regelia megacephala
open scrub over scattered sedges and herbs.
RmB Regelia megacephala, (Kunzea praestans) open scrub over Baeckea sp. Moora (R.Bone
1993/1) low open shrubland.
RmDs
(RmBs)
Regelia megacephala, (Banksia sessilis var. sessilis) open scrub.
RmEe Eucalyptus eudesmioides subsp. eudesmioides scattered low trees to low woodland over
Regelia megacephala open to closed scrub.
RmHs Regelia megacephala open scrub over Hibbertia subvaginata low open shrubland to low
shrubland.
RmKp Regelia megacephala high shrubland to open scrub over Kunzea praestans high open
shrubland to open scrub over Hibbertia subvaginata scattered shrubs to low open
shrubland.
RmKpMc
Regelia megacephala open to closed scrub and Kunzea praestans high open shrubland to
open scrub over Melaleuca calyptroides. open shrubland to shrubland over Hibbertia
subvaginata low open shrubland.
Vegetation Alliance 16: Kunzea praestans high shrubland to open and closed scrub
Association Description
KpAh Allocasuarina huegeliana (Acacia acuminata subsp. acuminata) low open woodland to low
woodland over Kunzea praestans high shrubland to open scrub over Hibbertia subvaginata
scattered shrubs to low open shrubland.
KpAhB Allocasuarina huegeliana (Acacia acuminata subsp. acuminata) scattered trees to low open
woodland over Kunzea praestans high shrubland to open scrub over shrubland including
Melaleuca calyptroides and Baeckea sp. Moora (R. Bone 1993/1) scattered shrubs to open
shrubland.
KpAhDs
(KpAhBs)
Allocasuarina huegeliana (Acacia acuminata subsp. acuminata) scattered trees to low open
woodland over Banksia sessilis var. sessilis scattered tall shrubs over Kunzea praestans,
(Xanthorrhoea drummondii) high shrubland to open scrub over Hibbertia subvaginata low
open shrubland.
KpAhMc Allocasuarina huegeliana (Acacia acuminata subsp. acuminata) scattered trees to low open
woodland over Kunzea praestans open scrub over Melaleuca calyptroides open shrubland to
shrubland.
KpDs (KpBs) Banksia sessilis var. sessilis high open shrubland over Kunzea praestans, (Xanthorrhoea
drummondii) open scrub over Hibbertia subvaginata scattered low shrubs.
KpDsMc
(KpBsMc)
Banksia sessilis var. sessilis scattered tall shrubs to high open shrubland over Kunzea
praestans high shrubland to open scrub over Melaleuca calyptroides ms. scattered shrubs to
shrubland over Hibbertia subvaginata scattered low shrubs to low open shrubland.
KpEe Eucalyptus eudesmioides subsp. eudesmioides low woodland over Kunzea praestans open
scrub over Melaleuca calyptroides and Baeckea sp. Moora (R. Bone 1993/1) open shrubland.
KpHs Kunzea praestans high shrubland to open scrub over Hibbertia subvaginata (low) open
shrubland to (low) open heaths over scattered to very open sedgeland/grassland/herbland.
KpXd Xanthorrhoea drummondii high open shrubland over Kunzea praestans high open
shrubland.
Interim Recovery Plan No. 338
8
Vegetation Alliance 17: Melaleuca calyptroides ms open to closed heath
Association Description
Mc Kunzea praestans high open shrubland over Melaleuca calyptroides open to closed heath
over Hibbertia subvaginata, Calytrix leschenaultii scattered low shrubs to low open
shrubland.
Vegetation Alliance 18: Hibbertia subvaginata low shrublands to low open heath
Association Description
Hs Hibbertia subvaginata open heath.
HsAh Allocasuarina huegeliana scattered trees over Hibbertia subvaginata (low open shrubland)
open heath.
HsDs (HsBs) Nuytsia floribunda scattered low trees over Banksia sessilis var. sessilis high open shrubland
over Hibbertia subvaginata low shrubland.
Vegetation Alliance 19: Xanthorrhoea drummondii high open shrubland
Association Description
Xd Xanthorrhoea drummondii high open shrubland.
Interim Recovery Plan No. 338
9
Appendix 5
Vegetation Association descriptions for “buffer” communities as per Trudgen et
al. (2006)
Vegetation Alliance 4: Eucalyptus eudesmioides low mallee woodlands to low mallee open forests
Association Description
EeKp Eucalyptus eudesmioides low mallee woodland over Kunzea praestans scattered tall shrubs
to high shrubland
EeId Eucalyptus eudesmioides low mallee woodland over Xanthorrhoea drummondii and
Isopogon divergens scattered shrubs
EeRm Eucalyptus eudesmioides low mallee open forest over Calothamnus aff. quadrifidus (Moora-
Watheroo), Regelia megacephala high open shrubland
Vegetation Alliance 9: Allocasuarina huegeliana low woodlands to low open forests
Association Description
AhDs Allocasuarina huegeliana low woodland to low open forest over Dryandra sessilis var. sessilis
scattered tall shrubs to high open shrubland
AhDsKp Allocasuarina huegeliana low woodland to low open forest over Dryandra sessilis var. sessilis
scattered tall shrubs to high shrubland over Kunzea praestans scattered tall shrubs to high
open shrubland
AhHr Allocasuarina huegeliana low open forest over Hakea recurva subsp. recurva scattered tall
shrubs
AhHs Allocasuarina huegeliana low open woodland to low woodland over Hibbertia subvaginata
low open shrubland to low shrubland
AhKp Allocasuarina huegeliana low woodland to low open forest over Kunzea praestans scattered
tall shrubs to high open shrubland
AhRm Allocasuarina huegeliana low open forest over Regelia megacephala, Allocasuarina
campestris high open shrubland
AhTl Allocasuarina huegeliana low woodland to low open forest over Trymalium ledifolium var.
rosmarinifolium, Hibbertia subvaginata scattered shrubs to low open shrubland over
scattered sedges and grasses, with Xanthosia fruticulosa very open herbland and Cheilanthes
adiantoides scattered ferns
AhDs Allocasuarina huegeliana low woodland to low open forest over Dryandra sessilis var. sessilis
scattered tall shrubs to high open shrubland
AhXd Allocasuarina huegeliana low open woodland to low woodland over Xanthorrhoea
drummondii scattered tall shrubs to high open shrubland over scattered low shrubs
including Trymalium ledifolium var. rosmarinifolium and Hibbertia subvaginata shrubs
Vegetation Alliance 11: Acacia acuminata low woodlands to low open forests
Association Description
AaDs Acacia acuminata subsp. acuminata, Allocasuarina huegeliana low woodland over Dryandra
sessilis var. sessilis (Xanthorrhoea drummondii) scattered tall shrubs over very open herbland
AaDsKp Acacia acuminata subsp. acuminata low woodland over Dryandra sessilis var. sessilis
(Xanthorrhoea drummondii) scattered tall shrubs over Kunzea praestans scattered tall shrubs
to high open shrubland over very open herbland
Interim Recovery Plan No. 338
10
AaEl Acacia acuminata subsp. acuminata, Eucalyptus loxophleba subsp. loxophleba low woodland
to low open forest over very open grassland/herbland
AaHr Acacia acuminata subsp. acuminata, (Eucalyptus loxophleba subsp. loxophleba) scattered low
trees over Hakea recurva subsp. recurva scattered tall shrubs to high open shrubland over
very open herbland
AaHs Acacia acuminata subsp. acuminata, Allocasuarina huegeliana, (Eucalyptus loxophleba subsp.
loxophleba) low woodland over Allocasuarina campestris scattered tall shrubs over Hibbertia
subvaginata low open shrubland to low shrubland
AaKp Acacia acuminata subsp. acuminata, Allocasuarina huegeliana low woodland to low open
forest over Kunzea praestans scattered tall shrubs to high open shrubland over very open
herbland
AaMcor (Eucalyptus wandoo scattered trees) over Acacia acuminata subsp. acuminata scattered low
trees over Melaleuca coronicarpa low open shrubland over very open herbland
AaMr Acacia acuminata subsp. acuminata, Allocasuarina huegeliana low woodland over Melaleuca
radula scattered tall shrubs to high shrubland
AaTl Acacia acuminata subsp. acuminata scattered low trees over Trymalium ledifolium var.
rosmarinifolium open shrubland